Daniel Wasserman - UT ECE
Daniel Wasserman University of Illinois Urbana Champaign Dept. of Electrical and Computer Engineering Urbana, IL 61801 (217) 333-9872 [email protected]
EDUCATION Princeton University, Princeton, NJ Ph.D. in Electrical Engineering M.A. in Electrical Engineering Dissertation: “Quantum Dots: Mid-Infrared Luminescence, (110) Growth, Single-Dot Luminescence and Cleaved Edge Overgrowth ”
2004 2000
Brown University, Providence, RI Sc.B. Honors in Engineering/Physics 1998 Areas of Concentration: Engineering/Physics, History Honors: Magna Cum Laude , Phi Beta Kappa-1997, top 3% of graduating class, Sigma Xi, with Honors
EMPLOYMENT University of Texas Austin Associate Professor, Department of Electrical and Computer Engineering (0%)
Sept. 2015
University of Illinois Urbana Champaign, Urbana, IL Associate Professor, Department of Electrical and Computer Engineering
July 2015-
Assistant Professor, Department of Electrical and Computer Engineering
July 2011-2015
University of Massachusetts Lowell, Lowell, MA Assistant Professor, Associate-Director of Photonics Center
2007 – 2011
Princeton University, Princeton, NJ 2004–2007
Post-Doctoral Research Fellow
FELLOWSHIPS AND AWARDS
UIUC Distinguished Promotion Award NSF CAREER Award AFOSR Young Investigator Award UIUC College of Engineering Outstanding Advisor Award UIUC Instructors ranked as Excellent (ECE329 F’12, ECE198 S’13, F’14, ECE574 S’15) UML Department of Physics Excellence in Teaching Award Council on Science and Technology Postdoctoral Teaching Fellowship, Princeton University National Science Foundation Graduate Fellowship Francis Upton Graduate Fellowship, Princeton University
2015 2011 2010 2012/2013 2012-2015 2004–2007 1999–2002 1998–2002 1998–2002
TEACHING University of Illinois Urbana Champaign, Urbana, IL
Course Development –ECE329P, Fields and Waves with Mathematica Course Development – In a New Light: Hands-On Optics… (ECE 198DL1) Instructor – Fields and Waves (ECE329) Course Coordinator – Fields and Waves (ECE329) Instructor – Solid State Devices (ECE 340) Instructor – Nanophotonics (ECE 574)
F’15 S’13, F’13 F’11’12,’14 F’14 S’12, S’,F’13 S’14, S’15
University of Massachusetts Lowell, Lowell, MA
Recitation Instructor – Physics II (Intro E&M) Lab Instructor – Physics II Honors Lab
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S’11 S’11
Instructor – Introductory Physics (95.141) Develop and present all lectures for 300 -400 student Introductory Physics class. Organize and oversee 8-10 recitation sections. Develop Exams, organize help sessions, run course website, develop and run in -class demos, produce media clips, and integrate social networking. Instructor – Solid State Electronics and Optoelectronic Devices (95.577) Instructor-Introductory Modern Phys ics (95.210) Recitation Instructor-Honors Physics I (95.161) Recitation Instructor-Physics I (95.141)
F’09, S/F’10
F’08 S’08-’10 F’09, F’10 F’07,S’09
Princeton University, Princeton, NJ
Instructor - ELE102 “New Eyes for the World” Course Development and Instruction – ELE 102 “New Eyes for the World” Developed lab for introductory optics course geared towards non -scientists. Designed, developed, organized and held weekly labs for ~30 students.
2007 2004-2006
FUNDING
“Transparent conducting oxides for infrared plasmonic applications, micro -ring resonators for optical sensing”, PI, AFRL, 540K “EAGER: Novel Approaches for Generating and Controlling Light in the Optical No-Man's Land of the Far-IR”, PI, NSF, 152K “Plasmon-Coupled Mid-IR Quantum Dot Emitters”, PI, Sandia National Labs, 50K “Tunable Mid-Wave Infrared Filters”, AFRL, PI, 195K
2015-2018
“MURI: Fundamental Study of Defects and Their Reduction in Type -II Superlattice Materials”, PI, ARO, 6.25M “Understanding the Optical Response of Designer Epsilon -Near-Zero Materials”, PI, National Science Foundation, DMR/MWN, 341K. “CAREER: Quantum Dot Cascade Laser”, National Science Foundation, 400K “Active Plasmonics for Beam Steering and On -Chip Directional Control”, PI, Air Force Office of Scientific Research, Young Investigator Program, 360K. “Narrow-band, frequency agile mid-IR filter”, Air Force Research Labs, STTR Phase I, II, 45K “Tunable Mid-IR Metamaterial Filters”, STTR with Triton Systems Inc., 136K “Mid-Infrared Plasmonics for Sensing Applications”, PI, National Science Foundation, 225K. “Solid State Lighting Energy Frontier Research Center”, University Collaborator with Sandia National Labs, 150K.
2014-2015
2014-2015 2014 2014-2016
2012-2015 2011-2016 2010–2013 2011-2013 2010–2012 2009–2012 2009–2011
“Mid-Infrared Plasmonic Beam Steering”, PI, Air Force Research Labs, 75K
2008–2009
”Mid-infrared Quantum Dot Emitters U tilizing Planar Photonic Crystal Technology”, University Collaborator, Sandia National Labs LDRD, 125K.
2007–2009
“Wavelength selective exothermic materials”, PI, Alloy Surfaces Inc., 95K.
2008–2010
“nBn Detector Development”, PI, Air Force Research Labs, 55K.
2009
“Mid-Infrared Metamaterials”, University Collaborator, Sandia National Labs LDRD, 35K. “Mid-infrared beam steering with plasmonic materials”, PI, Center for Integrated Nanotechnologies (CINT) user proposal.
2008
“GK-12 Vibes and Waves in action”, STEM Faculty Advisor, NSF
2008–2011 2010–2012
PROFESSIONAL SERVICE, MEMBERSHIP
Electronic Materials Conference Committee (2015 -) Committee Chair, 2014, 2015 IEEE Photonics Conference, Photonic Materials and Metamaterials Chairman of Semiconductor Laser Subcommittee, CLEO 2014, CLEO 2015. Associate Editor, Optics Express, 2011 -present Guest Editor, IOP Journal of Optics special edition on Mid -IR/THz Photonics, 2013-2014. Co-organizer of CLEO 50 th Anniversary of the Semiconductor Laser special symposium, 2012. Co-organizer of the 2013 Intersubband Transitions in Quantum Wells conference. Organizer of Metamaterials, Materials for THz, Plasmonics, and Polaritons session for Electronic Materials Conference, 2013.
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CLEO 2010, 2011, 2012 (Semiconductor Laser Subcommi ttee), 2012-2013 IEEE Photonics Society Conference (Photonic Materials subcommittee), NAMBE 2009, ITQW 2009, 2011 SPIE Optics and Photonics (Active Materials) Program Committees Proposal Reviewer NSF ECCS, NSF DMR, NSF Chemistry, NSF SECO, DOE STTR/SBIR, SNSF, Israeli-US Binational Science Foundation, Army Research Office. Reviewer for Nature Materials, Nature Photonics, J. Electronic Materials, IEEE JQSTE, ACS Applied Materials and Interfaces, Nature Communications, Proceedings of the National Academy of S ciences, IEEE Phot. Technol. Lett., Adv. Opt. Mat., Phys. Rev. Lett., Phys. Rev. B, J. Nanoscience and Nanotechnology, Journal of Applied Physics, IEEE Photonics, Crystal Growth and Design, physica status solidi A, J. Quantum Electronics, Nanotechnology, Appl. Phys. Lett., Optics Communications, Optics Express, Optics Letters, J. Modern Optics, Small, Optica, ACS Photonics, IOP Journal of Physics D. Member of American Physical Society, IEEE, OSA, SPIE. IEEE Optoelectronic Devices Technical Committee (2015 -present)
INVITED TALKS Conference on Lasers and Electro-Optics (CLEO), San Jose, CA
2016
MRS Fall Meeting, Boston, MA
2015
MRS Spring Meeting, San Francisco, CA IEEE Summer Topicals, Montreal, CA Device Research Conference, Santa Barbara, CA NSF EPMD CAREER Workshop SPIE Optics and Photonics, San Diego, CA, “Engineered Metals for Mid-IR Plasmonics” SPIE Optics and Photonics, San Diego, CA, “Selective Thermal Emission from thin-film metasurfaces” National Science Foundation Workshop, Prague, CZ , “Mid-IR Photonics” Physics of Quantum Electronics 2013, Snowbird, UT, “Designer Mid-IR Metals” Abdus Salam International Centre for Theoretical Physics "Workshop on Nanophotonics", Trieste, IT: “Mid-IR Plasmonics” SPIE Photonics Asia, Beijing, China: “Making the mid-infrared nano with plasmonics and metamaterials” Center for Nanoscale Science and Technology (CNST), University of Illinois: “Making the mid-infrared nano with plasmonics and metamaterials” Physics of Quantum Electronics 2012, Snowbird, UT, “Mid-IR Selective Thermal Metamaterial Emitters” Physics of Quantum Electronics 2011, Snowbird, UT, “Enhanced Funneling of Light Using Epsilon Near Zero Metamaterials ” AFOSR Nanophotonics Program Review, Cambridge, MA, “Mid-IR Plasmonics and ENZ Metamaterials” SPIE Optics and Photonics 2010, San Diego, CA, “Active Mid-IR Plasmonics” Physics of Quantum Electronics 2010, Snowbird, UT, “Mid-IR Plasmonics” Photonics West 2010, San Francisco, CA , “Mid-IR Emission from InAs Quantum Dots” 3 rd International Workshop on Quantum Cascade Lasers: Monte Verita, Switzerland, “Mid-IR Electroluminescence from InAs Quantum Dots” 2 nd International Workshop on Quantum Cascade Lasers: Bari, Italy “Nonlinear Quantum Cascade Lasers” Conference on Modulated Semiconductor Structures: Albuquerque, NM “Stimulated Electronic Anti-Stokes Raman Emission from QC Lasers” Materials Research Society, Fall: Boston, MA “(110) Quantum Dots: Growth, Single-Dot Emission and Cleaved-Edge Alignment”
2015 2014 2014 2014 August 2013 August 2013 April 2013 January 2013 December 2012 November 2012 April 2012 January 2012 January 2011 December 2010 August 2010 January 2010 January 2010 September 2008 September 2006 May 2005 November 2005
INVITED SEMINARS Naval Research Lab, Optoelectronics Seminar University of Iowa, Optical Science and Technology Center Symposium University of Michigan, C-PHOM Seminar University of Massachusetts Lowell, Physics Colloquium Tufts University, ECE Departmental Seminar Princeton University, ECE Departmental Seminar Stevens Institute of Technology Air Force Research Lab Materials and Manufacturing Directorate Notre Dame University, Dept. of Electrical Engineering Purdue University, Dept. of Physics: Designer Mid-Infrared Metals
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August, May 1, April, March,
2015 2015 2015 2015
April, 2014 March, 2014 March, 2014 August, 2013 March, 2013 February 2013
Yale University, Dept. of Electrical Engineering: Mid-Infrared Plasmonics Triton Systems Inc. Technical Seminar: Mid-Infrared Plasmonics Society of Applied Spectroscopy, New England Chapter, Seminar Series: “MidInfrared Plasmonics and Nanotechnology” BAE Systems Inc. Technical Seminar: The UMass Lowell Mid-IR Photonics Lab Brown University Optics and Optoelectronics Seminar Series: “Mid-IR Photonics” Physical Sciences Inc. Technical Seminar: Mid-IR Photonics UMass Boston Seminar Series, “Mid-IR Photonics” Materials Science Seminar Series, University of New Hampshire “Mid-IR Photonics” Lowell Regional Physics Alliance “UMass Lowell Photonics Center: Hands on Physics for Local Students” Alloy Surfaces, Boothwyn, PA: “Mid-IR Photonics” Lincoln Labs Technical Seminar
April, 2011 August 2010 February 2010
UMass Lowell, Center For High Rate Nanomanufacturing Seminar Series “Mid-IR Photonics”
February 2008
October 2009 May 2009 November 2008 May 2009 May 2008 April 2008 February 2008 October 2007
UNIVERSITY AND DEPARTMENTAL SERVICE Graduate Committee
2014-15
Faculty Search Committee
2014-15
Search Committee Member, College Honors Program Director
2013
Grand Challenge Course Faculty Advisor
F’12
UIUC Dept. of Electrical and Computer Engineering Colloquium Committee UIUC Dept. of Electrical and Computer Engineering Curriculum Committee
2012-2014 2012-2014
UML Dept. of Physics Undergraduate Committee
2008–Present
UMass Lowell Committee on Teaching and Learning
2008–Present
UML Dept. of Physics Graduate Committee
2007–Present
UML Strategic Planning Committee, Undergraduate Education Subcommittee
2009–2010
UML Chapter Society of Physics Students, Faculty Advisor
2007–Present
UML Graduate Physics Association, Faculty Advisor Physics Department Publicity Committee
2007–Present 2007–Present
Steering Committee, Lowell Regional Physics Alliance
2007–2010
OUTREACH “Build Your Own Optical Communication System”, Principal Scholars Program
Dec. 2015
“Jell-O Optics”, Campus Middle School for Girls
Dec. 2015
“Hands-On Nanotechnology Activity”, Principal Scholars Program.
Dec. 2014
“Build Your Own Optical Communication System”, Campus Middle School for Girls “Build Your Own Hard Drive” activity day, Principal Scholars Program.
Dec. 2014 November 2013
Planned, developed, and ran Physics Activity Days at UML Photonics Center for Lowell High Students: science activity, a facilities tour, and LN2 ice cream.
2008, -10, -11
Gear Up Science Activity: Build Your Own Hard Drive
October, 2007
Taught Lowell High Physics Class “Physics of the Curveball” Princeton University: Developed, organized, and ran Engineering Activity Days (2006, 2007) for Lawrence, Trenton high students, tables for Science and Engineering Expo (2004-2006).
November, 2007 2004–2007
STUDENTS Post-Doc Prof. Stephanie Law, 2011-2014, currently Asst. Prof. at University of Delaware Researchers Dr. Yujun Zhong, 2011-present Current Lan Yu (4 th year PhD) William Streyer (4 th year PhD) Runyu Liu (3 rd year PhD) Narae Yoon (1 s t year PhD) Sukrith Dev (1 s t year, PhD) Daniel Zuo (UIUC, 5 th year, PhD, co-advised with SL Chuang)
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Former Aaron Rosenberg, MS 2014 Andrew Taylor, MS 2013, Lockheed Martin Troy Ribaudo Ph.D 2011, Currently at Lam Research David Adams Ph.D 2012, Post-doc Harvard Medical School Joshua Mason Ph.D 2012, Post -doc, Advanced Materials Lab, UMass Lowell Krongtip Termkoa Ph.D 2010 Karen Freitas M.S. 2008 Undergraduates Daniel Schwartz (UIUC, S2015), Josephine Hovhannessian, REU UC-Merced (Su. 2014), Narae Yoon (UIUC, Su. 2014, F2014), Sukrith Dev (F2014), Zipporah Goldenfeld (F2014), Brian Vaughn (UIUC S,F2013), Joshua Surya (UIUC S2013), Matthew Ives (UIUC S2013), Simrin Wahal (UIUC S2013), Travis Hamilton (UIUC S2013), Eric Sanchez (UIUC AY2012/2013), Nish Nookola (UIUC AY 2012/13), Robby Regalbuto (Summer student UIUC 2012), Tom Jacobs (UIUC S2012, AY2012 2013), Gino Rooney (UIUC S2012, AY2012 -2013), Torin Kilpatrick (UIUC, AY2012-13), Mahd Bateresh (UIUC, 2012), Christopher Reidy (UML B.S. 2008, Oregon State University Ph.D student), Melissa Spencer (UML B.S. 2008, Lincoln Labs), Zachariah Johnson (B.S. 2010, UML Masters Program in Physics), Cynthia Mitchell (UML), John Lipiello (UML), Tom Sinisi (UML)
PRESS AND PUBLICITY September 2013, “Tiny Antennas Let Long Waves See in the Infrared”, R&DMag, PhysOrg, LaserFocusWorld, and others. November 2009, Nashua Telegraph, “Pop goes the Physics Class”: Article focusing on my integration of popular movie clips into Physics I lectures. October 2009, AFOSR Press Release, “Air Force invests over $14M for 2010 Young Investigators Research Program”: Details of AFOSR Young Investigator Award. February 2009, PhysOrg.com, “Quantum Dots as Mid -Infrared Emitters”: Article summarizing results published in Appl. Phys. Lett. article demonstrating room temperature electroluminescence from self assembled InAs quantum dots. UML Press Releases and Publications: 2008 UML Research Magazine, UML Shuttle April 2008, UML Alumni Magazine Summer 2010.
PEER REVIEWED PUBLICATIONS 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13.
Invited: “Engineering the Reststrahlen Band with Hybrid Plasmon/Phonon Excitations”, W. Streyer, K. Feng, Y. Zhong, A.J. Hoffman, and D. Wasserman, under review. “Buried Extraordinary Optical Transmission Gratings”, R. Liu, X . Zhao, C. Roberts, X. Li, V. Podolskiy, and D. Wasserman, accepted for publication, Advanced Materials . “Mid-infrared electroluminescence from InAs type -I quantum wells grown on InAsP/InP metamorphic buffers”, D. Jung, L. Yu, D. Wasserman, M. L. Lee, J. Appl. Phys. , 118, 183101 (2015). Invited Review: “Photonic Materials, Structures and Devices for Reststrahlen Band Optics”, K. Feng, W. Streyer, Y. Zhong, A.J. Hoffman, and D. Wasserman, Optics Express , 23, A1418 (2015). "Selective absorbers and thermal emitters for far -infrared wavelengths ", W. Streyer, K. Feng, Y. Zhong, A.J. Hoffman, and D. Wasserman, Appl. Phys. Lett., 107, 081105 (2015) "Localized surface phonon polariton resonances in polar gallium nitride" , K. Feng, W. Streyer, S.M. Islam, J. Verma, D. Jena, D. Wasserman and A.J. Hoffman, Appl. Phys. Lett., 107, 081108 (2015) “Direct Minority Carrier Transport Characterization of InAs/InAsSb Superlattice nBn Photodetect ors”, D. Zuo, R. Liu, D. Wasserman, J. Mabon, Z.-Y. He, S. Liu, Y.-H. Zhang, E.A. Kadlec, and E.A. Shaner, Appl. Phys. Lett., 106, 071107 (2015). “Platinum germanides for mid - and long-wave infrared plasmonics”, J.W. Cleary, W.H. Streyer, N. Nader, S. Vangala, I. Avrutsky, B. Claflin, J. Hendrickson, D. Wasserman, R.E. Peale, W. Buchwald, R. Soref, Optics Express , 23, 3316-3326 (2015) . Invited Review: “Mid-Infrared Plasmonic Materials”, Y. Zhong, S. Malagari, T. Hamilton, and D. Wasserman, J. Nanophotonics , 9(1), 093791 (2015). “Mid-infrared emission from In(Ga)Sb layers on InAs(Sb)”, R. Liu, Y. Zhong, L. Yu, H. Kim, S. Law, J.-M. Zuo, and D. Wasserman, Optics Express, 22, 24466 (2014). “Controlling quantum dot energies using submonolayer bandstructure engineering”, L. Yu, D. Jung, S. Law, J. Shen, J.J. Cha, M.L. Lee, D. Wasserman, Appl. Phys. Lett., 105, 081103 (2014). “Design, Fabrication, and Characterization of Near -IR Gold Bowtie Nanoantenna Arrays”, H. Chen, A.M. Bhuiya, R. Liu, D. Wasserman, and K.C. Touissant, Jr., J. Phys. Chem. C, 118, 20553 (2014). “Editorial: Special issue on mid-infrared and THz photonics”, D. Wasserman, R. Singh, and T. Akalin, Invited Editorial, J. Opt., 16, 090201 (2014)
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14. “Doped semiconductors with Band-Edge Plasma Frequencies”, S. Law, R. Liu, D. Wasserman, J. Vac. Sci. Technol. B, 32, 05260 1-7 (2014). 15. Invited: “Flat mid-infrared composite plasmonic materials using lateral doping -patterned semiconductors”, A. Rosenberg, J. Surya, R. Liu, W. Streyer, S. Law, L.S. Lesl ie, R. Bhargava, and D. Wasserman, J. Opt., 16, 094012 (2014). 16. "Engineering absorption and blackbody radiation in the far-infrared with surface phonon polaritons on gallium phosphide", W. Streyer, S. Law, A. Rosenberg, C. Roberts, V.A. Podolskiy, A.J. Hoffman, and D. Wasserman, Appl. Phys. Lett., 104, 131105 (2014). 17. "ENZ-Enhanced Light Transmission through a Subwavelength Slit", S. Inampudi, D. C. Adams, T. Ribaudo, D. Slocum, S. Vangala, W.D. Goodhue, D. Wasserman, and V. A. Podolskiy, Phys. Rev. B, 89, 125119 (2014). 18.
“All-Semiconductor Plasmonic Perfect Absorbers”, S. Law, T. Kilpatrick, L. Yu, T. Ribaudo, C. Roberts, V.A. Podolskiy, E.A. Shaner, and D. Wasserman, Phys. Rev. Lett., 112, 017401 (2014).
19. "All-Semiconductor Plasmonic Nanoantennas for Infrared Sensing", S. Law, L. Yu, A. Rosenberg, and D. Wasserman, Nano Lett., 13, 4560 (2013). 20. "Degenerately doped InGaBi:As as a highly conductive and transparent contact material in the infrared range", Y. Zhong, P.B. Dongmo, L. Gong, S. Law, B. Chase, D. Wasserman, and J.M.O. Zide, Optics Materials Express, 3, 1197 (2013). 21. "Wafer-Scale Production of Uniform InAsyP1-y Nanowire Array on Silicon for Heterogeneous Integration", J.C. Shin, A. Lee, P.K. Mohseni, D.Y. Kim, L. Yu, J.H. Kim, H.J. Kim, W.J. Choi, D. Wasserman, K.J. Choi, X. Li, ACS Nano (2013) 22. "Direct observation of minority carrier lifetime improvement in InAs/GaSb type-II superlattice photodiodes via interfacial layer control", D. Zuo, P. Xiao, D. Wasserman, and S.L. Chuang, Appl. Phys. Lett., 102, 141107 (2013) 23. "Strong absorption and selective emission from engineered metals with thin dielectric films", W. Streyer, S. Law, T. Jacobs, G. Rooney, and D. Wasserman, Optics Express, 21, 9113 (2013). 24. “Near-field infrared absorption of plasmonic semiconductor microparticles studied using atomic force microscope infrared spectroscopy”, J. Felts, S. Law, C.M. Roberts, V.A. Podolskiy, D. Wasserman, and W.P. King, Appl. Phys. Lett., 102, 152110 (2013). 25. "Epitaxial growth of engineered metals for mid-infrared plasmonics", S. Law, L. Yu, D. Wasserman, J. Vac. Sci. Technol. B, 31, 03C121 (2013). 26. Invited Review: “Towards nano-scale photonics with micro-scale photons: The opportunities and challenges of mid-infrared plasmonics”, S. Law, V. Podolskiy, and D. Wasserman, Nanophotonics, 2, 104 (2013) 27. “2.8µm emission from type-I quantum wells grown on InAsxP1-x/InP metamorphic graded buffers”, D. Jung, Y. Song, L. Yu, D. Wasserman, and M.L. Lee, Appl. Phys. Lett., 101, 251107 (2012) 28. “Electroluminescence from quantum dots fabricated with nanosphere lithography”, L. Yu, S. Law, and D. Wasserman, Appl. Phys. Lett., 101, 103105 (2012). 29. “Mid-infrared designer metals”, S. Law, D.C. Adams, A.M. Taylor, and D. Wasserman, Optics Express, 20, 12155 (2012). 30. “Strong coupling of molecular and mid-infrared perfect absorber resonances”, J.A. Mason, G. Allen, V. Podolskiy, and D. Wasserman, IEEE Photonics Technology Letters, 24, 31 (2012). 31. “Enhanced Light Funneling Through Subwavelength Apertures Using Epsilon Near Zero Metamaterials”, D.C. Adams, N. Inampudi, T. Ribaudo, D. Slocum, N. Kuhta, S. Vangala, W. Goodhue, V.A. Podolskiy, and D. Wasserman, Phys. Rev. Lett., 107, 133901 (2011). 32.
“Voltage-controlled active mid-infrared plasmonic devices”, K. Anglin, T. Ribaudo, D.C. Adams, X. Qian, W.D. Goodhue, S. Dooley, E.A. Shaner and D. Wasserman, Journal of Applied Physics, 109, 123103 (2011).
33. “Strong absorption and selective thermal emission from midinfrared metamaterials”, J.A. Mason, S. Smith, and D. Wasserman, Applied Physics Letters, 98, 241105 (2011). 34.
“Multiscale beam evolution and shaping in corrugated plasmonic structures”, S. Thongrattanasiri, D.C. Adams, D. Wasserman and V. Podolskiy,Optics Express, 19, 9269 (2011).
35. “Observation of Rabi-Splitting from Surface Plasmon Coupled Conduction-State Transitions in Electrically-Excited InAs Quantum Dots”, B.S. Passmore, D.C. Adams, T. Ribaudo, P. Davids, W.W. Chow, S.A. Lyon, D. Wasserman, and E.A. Shaner, Nano-Letters, 11, 338 (2011). 36.
“Selective Thermal Emission from Patterned Steel Substrates”, J. Mason, D.C. Adams, Z. Johnson, S. Smith, A.W. Davis, and D. Wasserman, Opt. Express, 18, 25912 (2010).
37.
“Plasmonic mid-infrared beam steering”, D.C. Adams, S. Thongrattanasiri, T. Ribaudo, V. Podolskiy, and D. Wasserman, Appl. Phys. Lett., 96, 201112 (2010).
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38. "High-optical-quality nanosphere lithographically formed InGaAs quantum dots using molecular beam epitaxy assisted GaAs mass transport and overgrowth", X. Qian, S. Vangala, D. Wasserman, and W.D. Goodhue., J. Vac. Sci. Technol. B, 28(3), C3C9 (2010). 39. “Mid-infrared doping tunable transmission through subwavelength metal hole arrays on InSb”, B.S Passmore, D.G. Allen, S. R. Vangala, W.D. Goodhue, D. Wasserman, and E.A. Shaner, Optics Express, 17 10223 (2009). 40. “Active Control and Spatial Mapping of Midinfrared Propagating Surface Plasmons”, T. Ribaudo, S.S. Howard, C. Gmachl, X. Wang, F.-S. Choa, and D. Wasserman, Opt. Express, 17, 7019 (2009). 41.
“Spectral and spatial investigation of mid-infrared surface waves on a plasmonic grating”, T. Ribaudo, D.C. Adams, B. Passmore, E.A. Shaner and D. Wasserman, Appl. Phys. Lett. 94, 201109 (2009).
42. “Room temperature electroluminescence from InAs quantum dots”, D. Wasserman, T. Ribaudo, S.A. Lyon, S.K. Lyo, and E.A. Shaner, Appl. Phys. Lett., 94, 061101 (2009). 43. “Loss mechanisms in mid-infrared extraordinary optical transmission gratings”, T. Ribaudo, K. Freitas, E.A. Shaner, J.G. Cederberg, D. Wasserman, Opt. Express 17 666 (2009). 44. High k-space lasing in a dual-wavelength quantum cascade laser”, K.J. Franz, S. Menzel, A.J. Hoffman, D. Wasserman, J.W. Cockburn and C. Gmachl, Nature Photonics, 3, 50 (2009). 45.
“Uniform InGaAs quantum dot arrays fabricated using nanosphere lithography”, X. Qian, J. Li, D. Wasserman, W.D. Goodhue, Appl. Phys. Lett. 93 231907 (2008).
46.
“High-performance quantum cascade lasers. Optimized design through waveguide and thermal modeling”, S.S. Howard, Z. Liu, D. Wasserman, A.J Hoffman, T.S. Ko, C.F. Gmachl, IEEE J. Sel. Top. in Quant. Elect., 13, 1054 (2007).
47. “Current-tunable mid-infrared extraordinary transmission gratings”, E.A. Shaner, J. Cederberg, D. Wasserman, Appl. Phys. Lett., 91, 181110 (2007). 48. “Mid-Infrared doping tunable extraordinary transmission from sub-wavelength gratings”, D. Wasserman, E.A. Shaner, and J.G. Cederberg, Appl. Phys. Lett., 90, 191102 (2007). 49. “Negative Refraction in Semiconductor Metamaterials” A.J. Hoffman, L. Alekseyev, S.S. Howard, K.J. Franz, D. Wasserman, V.A. Podolskiy, E.E. Narimanov, D.L. Sivco, and C. Gmachl, Nature Materials, 6, 946 (2007) 50.
“Narrow width, low-ridge configuration for high-power quantum cascade lasers”, A. Lyahk, P. Zory, D. Wasserman, G. Shu, C. Gmachl, D. Bour Appl. Phys. Lett., 90, 141107 (2007)
51. “Evidence of cascaded emission in a dual-wavelength quantum cascade laser”, K.J. Franz, D. Wasserman, A.J. Hoffman, D.C. Jangraw, K.-T, Shiu, S.R. Forrest, and C. Gmachl, Appl. Phys. Lett., 90, 091104 (2007). 52.
“Multiple wavelength polarized mid-infrared emission from InAs quantum dots”, D. Wasserman, C. Gmachl, S.A. Lyon, and E.A. Shaner, Appl. Phys. Lett., 88, 191118 (2006).
53.
“Room Temperature Continuous-wave Quantum Cascade Lasers Grown by MOCVD without Lateral Regrowth”, Z. Liu, D. Wasserman, S.S. Howard, A.J. Hoffman, C. Gmachl, X. Wang, T. Tanbun-Ek, L. Cheng, and Fow-Sen Choa, IEEE Photonics Technology Letters, 18, 1347 (2006).
54. “Anomalous spin polarization of GaAs two-dimensional hole systems”, R. Winkler, E. Tutuc, S.J. Papadakis, S. Melinte, M. Shayegan, D. Wasserman, and S.A. Lyon, Phys. Rev. B, 72, 195321 (2005). 55. “Stimulated electronic Anti-Stokes Raman emission in Quantum Cascade lasers”, A. A Gomez-Iglesias, D. Wasserman, C. Gmachl, A. Belyanin, and D.L. Sivco, Appl. Phys. Lett., 87, 261113 (2005). 56. “6 nm half-pitch lines and 0.04μm2 static random access memory patterns by nanoimprint lithography”, M.D. Austin, W. Zhang, H.X. Ge. D. Wasserman, S.A. Lyon, and S.Y. Chou, Nanotech., 8, 1058 (2005). 57. “Cleaved-edge overgrowth of aligned quantum dots on strained layers of InGaAs”, D. Wasserman and S. A. Lyon, Appl. Phys.Lett., 85, 5352 (2004). 58. “Scanning near-field photoluminescence mapping of (110) InAs-GaAs self-assembled quantum dots”, M. Hadjipanayi, A.C. Maciel, J.F. Ryan, D. Wasserman, and S.A. Lyon, Appl. Phys. Lett., 85, 2535 (2004). 59. “Fabrication of 5nm linewidth and 14 nm pitch features by nanoimprint lithography”, Michael D. Austin, Haixiong Ge, Wei Wu, Mingtao Li, Zhaoning Yu, D. Wasserman, S.A. Lyon, and Stephen Y. Chou, Appl. Phys. Lett., 84, 5299 (2004). 60. “Formation of self-assembled quantum dots on (110) GaAs Substrates”, D. Wasserman, S.A. Lyon, M. Hadjipanayi, A. Maciel, and J .F. Ryan, Appl. Phys. Lett.. 83, 5050 (2003). 61. “Negative differential Rashba effect in two-dimensional hole systems”, B. Habib, E. Tutuc, S. Melinte, M. Shayegan, D. Wasserman, S.A. Lyon, and R. Winkler, Appl. Phys. Lett., 85, 3151 (2004). 62. “Characterization of GaAs grown by molecular beam epitaxy on vicinal Ge(100) substrates”, A. Wan, V. Menon, S.R. Forrest, D. Wasserman, S. A. Lyon, and A. Kahn, J. Vac. Sci. Technol. B, 22, 1893 (2004). 63. “Spin splitting in GaAs (100) two-dimensional holes”, B. Habib, E. Tutuc, S. Melinte, M. Shayegan, D. Wasserman, S. A. Lyon, and R. Winkler, Phys. Rev. B, 69, 113311 (2004).
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64. “Mid-infrared luminescence from InAs quantum dots in unipolar devices”, D. Wasserman and S.A. Lyon, Appl. Phys. Lett., 81, 2848 (2002). 65. Mid-infrared electroluminescence from InAs quantum dots in p-n junctions and unipolar tunneling structures” D. Wasserman and S.A. Lyon, Physica Status Solidi B, 224, 585 (2001). 66. “Probing dopant incorporation in InAs/GaAs QDIPs by polarization-dependent Fourier transform infrared spectroscopy”, Z. Zhao, C. Yi, A.D. Stiff-Roberts, A.J. Hoffman, D. Wasserman, C. Gmachl, Infrared Physics & Technology, 51 131 (2007). 67. “DX-like centers in InAs/GaAs QDIPs observed by polarization-dependent Fourier transform infrared spectroscopy”, Z. Zhao, C. Yi, A.D. Stiff-Roberts, A.J. Hoffman, D. Wasserman, C. Gmachl, J. Vac. Sci. & Technol. B, 25 1108 (2007).
CONFERENCE PROCEEDINGS 1.
“Diffusion Characterization Using Electron Beam Induced Current and Time-Resolved Photoluminescence of InAs/InAsSb Type-II Superlattices”, D. Zuo, R. Liu, D. Wasserman, J. Mabon, Z. He, S. Liu, Y.-H. Zhang, E. Kadlec, B. Olson, E.A. Shaner, CLEO: Science and Innovations, SM2G.4 (2015)\ 2. “Localized Surface Phonon Polariton Resonators in GaN”, K. Feng, W. Streyer, S.M. Islam, J. Verma, D. Jena, D. Wasserman, A. Hoffman, QELS Fundamental Science, FTu2E.7, (2015). 3. “Platiinum germanides for long-wavelength infrared plasmonics”, N. Nader, W. Streyer, S. Vangala, D. Wasserman, J.R. Hendrickson, and J.W. Cleary, FiOS, FTu1E5, (2014) 4. “All-Semiconductor Plasmonic Nano-Antennas” S. Law, L. Yu, A. Rosenberg, and D. Wasserman, CLEO: QELS Fundamental Science, FM2K.1 2014 5. “All-Semiconductor Negative Plasmonic Absorbers” C. Roberts, S. Law, T. Kilpatrick, L. Yu, T. Ribaudo, E.A. Shaner, D. Wasserman, and V.A. Podolskiy, CLEO: QELS Fundamental Science, FM1C.3 2014 6. “Controlling Quantum Dot Energies Using Submonolayer Bandstructure Engineering” L. Yu, S. Law, D. Jung, M.L. Lee, and D. Wasserman, CLEO: Science and Innovation, Stu3H.6 2014 7. “Mid-IR Plasmonics with Engineered Semiconductor Metals”, S. Law, C. Roberts, S. Inampudi, A. Rosenberg, V. Podolskiy, and D. Wasserman, Workshop on Optical Materials, OW1D.3 (2014). 8. “All-Semiconductor Plasmonic Perfect Absorber”, S. Law, C. Roberts, T. Kilpatrick, L. Yu, T. Ribaudo, E.A. Shaner, V.A. Podolskiy, and D. Wasserman, CLEO: Science and Innovation, CM2F.6 (2013). 9. “Selective thermal emission from thin-film metasurfaces", W Streyer, S Law, J Mason, DC Adams, T Jacobs, G Rooney, D Wasserman, SPIE NanoScience+ Engineering, Proc. SPIE 8808, p. 88080V-88080V-12, 2013 10. “Making the mid-infrared nano with designer plasmonic materials”, S. Law, J. Felts, C. Roberts, V. Podolskiy, W.P. King, D. Wasserman, Proc. SPIE 8555-1 (2012). 11. "CO2 sensing with a 2005 nm thulium holmium co-doped fiber laser", R. Zhou, S. McKeown, B. Griffin, B. Amnueypornsakul, H. Huang, S. Eckhoff, D. Wasserman, and L. Goddard, in Optical Sensors, OSA Technical Digest (online) (Optical Society of America, 2012), paper STh2B.4. 12. "Selective Thermal Emission from Patterned Steel Surfaces", J. Mason, D. Adams, S. Smith, Z. Johnson, A. Davis, and D. Wasserman, in CLEO:2011 - Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper JTuI42. 13. "ENZ-enhanced transmission through subwavelength slits", S. Inampudi, D. Slocum, D. Adams, S. Vangala, W. Goodhue, D. Wasserman, and V. Podolskiy, in CLEO:2011 - Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper JTuI56. 14. "Toothed Mid-Infrared Metal-Insulator-Metal Waveguides", K. Anglin, D. Adams, T. Ribaudo, and D. Wasserman, in CLEO:2011 - Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper CTuS4. 15. "Funneling Light Through a Subwavelength Aperture Using Epsilon-Near-Zero Materials", D. Slocum, D. Adams, S. Inampudi, S. Vangala, W. Goodhue, V. Podolskiy, and D. Wasserman, in Quantum Electronics and Laser Science Conference, OSA Technical Digest (CD) (Optical Society of America, 2011), paper QThA3. 16. “Active Mid-Infrared Plasmonic Beam Steering Devices”, D.C. Adams, T. Ribaudo, S. Thongrattanasiri, E.A. Shaner, V. Podolskiy, and D. Wasserman, Proc. SPIE, 7756-41 (2010). 17. "Beam Steering of Mid-Infrared Light with Active Plasmonic Structures", D. Adams, S. Thongrattanasiri, V. Podolskiy, and D. Wasserman, in Conference on Lasers and Electro-Optics, OSA Technical Digest (CD) (Optical Society of America, 2010), paper CFB7. 18. "Evolution of Beaming Pattern in Corrugated Mid-IR Plasmonic Structures", S. Thongrattanasiri, D. Adams, D. Wasserman, and V. Podolskiy, in Quantum Electronics and Laser Science Conference, OSA Technical Digest (CD) (Optical Society of America, 2010), paper QMF5. 19. "Active Control and Spatial Mapping of Mid-Infrared Propagating Surface Plasmons", T. Ribaudo, E. Shaner, S. Howard, C. Gmachl, X. Wang, F. Choa, and D. Wasserman, in Conference on Lasers and Electro Optics/International Quantum Electronics Conference, OSA Technical Digest (CD) (Optical Society of America, 2009), paper IMB1 20. “Mid-Infrared Emitters Utilizing Intersublevel Transitions in Self-Assembled InAs Quantum Dots”, T. Ribaudo, B.S. Passmore, D.C. Adams, X. Qian, S. Vangala, W.D. Goodhue, E.A. Shaner, S.A. Lyon, and D. Wasserman, Proc. SPIE 7616, 7616A1-1, (2010).
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21.
“Active Mid-Infrared Plasmonic Beam Steering Devices”, D.C. Adams, T. Ribaudo, S. Thongrattanasiri, E.A. Shaner, V. Podolskiy, and D. Wasserman, Proc. SPIE, 7756-41 (2010).
22.
“Active Control of Propagating Waves on Plasmonic Surfaces”, T. Ribaudo, E.A. Shaner, S.S. Howard, C. Gmachl, X.J. Wang, F.-S. Choa, and D. Wasserman, Proc. SPIE 7221-24, 2 (2009).
23. “Mid-Infrared Emitters Utilizing Intersublevel Transitions in Self-Assembled InAs Quantum Dots”, T. Ribaudo, B.S. Passmore, D.C. Adams, X. Qian, S. Vangala, W.D. Goodhue, E.A. Shaner, S.A. Lyon, and D. Wasserman, Proc. SPIE 7616, 7616A1-1, (2010). 24. "Laser Action at High k-Space Values in Anti-Correlated Multi-Wavelength Quantum Cascade Lasers", S. Menzel, K. Franz, D. Wasserman, A. Hoffman, J. Cockburn, and C. Gmachl, in Conference on Lasers and ElectroOptics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest (CD) (Optical Society of America, 2008), paper CTuP1. 25. "Mid-Infrared Beam Propagation and Modulation in Extraordinary Transmission Gratings", E. Shaner, B. Passmore, A. Grine, and D. Wasserman, in Plasmonics and Metamaterials, OSA Technical Digest (CD)(Optical Society of America, 2008), paper MMD6 26. Loss Mechanisms in Extraordinary Optical Transmission Gratings", T. Ribaudo, K. Freitas, D. Wasserman, E. Shaner, and J. Cederberg, " in Plasmonics and Metamaterials, OSA Technical Digest (CD) (Optical Society of America, 2008), paper MWB2. 27. "Electrically Tunable Mid-Infrared Extraordinary Optical Transmission Gratings", D. Wasserman, E. Shaner, and J. Cederberg, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest (CD) (Optical Society of America, 2008), paper CThBB3. 28.
“Doping Tunable Enhanced Extraordinary Optical Transmission Gratings”, D. Wasserman, J. Cederberg, and E.A. Shaner, Proc. SPIE 6760, 67600A (2007).
29. "Cascaded Emission from a Dual-Wavelength Quantum Cascade Laser", K. Franz, D. Wasserman, A. Hoffman, C. Gmachl, K. Shiu, and S. Forrest, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper CTuE3. 30. "Narrow STRIPE-Width, Low-Ridge Configuration for High Power Quantum Cascade Lasers", A. Lyakh, P. Zory, D. Wasserman, G. Shu, C. Gmachl, M. D'Souza, D. Botez, and D. Bour, in Conference on Lasers and ElectroOptics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper CTuO1. 31. "Nonlinear Quantum Cascade Lasers: Toward Broad Tunability and Short-Wavelength Operation", F. Xie, D. Smith, V. Chaganti, A. Belyanin, D. Wasserman, C. Gmachl, J. Kono, M. Belkin, and F. Capasso, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper CTuO6. 32. "Difference Frequency Generation from Integrated Nonlinearities in Two-Wavelength Quantum Cascade Lasers", D. Wasserman, S. Howard, C. Gmachl, A. Belyanin, and D. Sivco, in Conference on Lasers and Electro Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper JWA138. 33. “MOCVD growth and regrowth of quantum cascade lasers”, F.-S. Choa, L. Cheng, X. Ji, Z. Liu, D. Wasserman, S.S. Howard, C.F. Gmachl, X. Wang, J. Fan, and J. Khurgin, Proc. SPIE 6485, 64850N (2007). 34. “Mid-infrared electroluminescence from InAs quantum dots”, D. Wasserman, S.A. Lyon, C. Gmachl, J. Cederberg, and E.A. Shaner, Proc. SPIE Vol. Vol.6386, p.63860E (2006). 35. "Approaches to Compact Quantum Cascade Laser Modules with Integrated Coolers", J. Chen, Z. Liu, D. Wasserman, C. Gmachl, D. Sivco, and A. Cho, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications Systems Technologies, Technical Digest (CD) (Optical Society of America, 2005), paper JTuC85. 36. “110 InAs Quantum Dots: Growth, Single-Dot Luminescence and Cleaved Edge Alignment”, D. Wasserman, E.A. Shaner, S.A. Lyon, M. Hadjipanayi, A.C. Maciel, and J.F. Ryan, MRS Fall 2004 Meeting Proc. “Progress in Compound Semiconductor Materials IV--Electronic and Optoelectronic Applications”, Vol. 829, (2005).
BOOK CHAPTERS 1.
“Electroluminescence from III-V self-assembled quantum dots”, D. Wasserman and S.A. Lyon, Book Chapter for "The Handbook of Electroluminescent Materials", edited by Prof. D.R. Vij, Department of Physics, Kurukshetra University, India, Institute of Physics Publishing, Bristol, U.K (2004).
REVIEWS 1.
“Active Mid-Infrared Plasmonic Beam Steering”, D. Wasserman, SPIE News Room, September, 2010, (http://spie.org/x41530.xml?highlight=x2412&ArticleID=x41530).
2.
“Active Surface Plasmons: Tuning of surface plasmons leads to new optoelectronic devices”, D. Wasserman, Laser Focus World, January (2008).
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EDUCATION Princeton University, Princeton, NJ Ph.D. in Electrical Engineering M.A. in Electrical Engineering Dissertation: “Quantum Dots: Mid-Infrared Luminescence, (110) Growth, Single-Dot Luminescence and Cleaved Edge Overgrowth ”
2004 2000
Brown University, Providence, RI Sc.B. Honors in Engineering/Physics 1998 Areas of Concentration: Engineering/Physics, History Honors: Magna Cum Laude , Phi Beta Kappa-1997, top 3% of graduating class, Sigma Xi, with Honors
EMPLOYMENT University of Texas Austin Associate Professor, Department of Electrical and Computer Engineering (0%)
Sept. 2015
University of Illinois Urbana Champaign, Urbana, IL Associate Professor, Department of Electrical and Computer Engineering
July 2015-
Assistant Professor, Department of Electrical and Computer Engineering
July 2011-2015
University of Massachusetts Lowell, Lowell, MA Assistant Professor, Associate-Director of Photonics Center
2007 – 2011
Princeton University, Princeton, NJ 2004–2007
Post-Doctoral Research Fellow
FELLOWSHIPS AND AWARDS
UIUC Distinguished Promotion Award NSF CAREER Award AFOSR Young Investigator Award UIUC College of Engineering Outstanding Advisor Award UIUC Instructors ranked as Excellent (ECE329 F’12, ECE198 S’13, F’14, ECE574 S’15) UML Department of Physics Excellence in Teaching Award Council on Science and Technology Postdoctoral Teaching Fellowship, Princeton University National Science Foundation Graduate Fellowship Francis Upton Graduate Fellowship, Princeton University
2015 2011 2010 2012/2013 2012-2015 2004–2007 1999–2002 1998–2002 1998–2002
TEACHING University of Illinois Urbana Champaign, Urbana, IL
Course Development –ECE329P, Fields and Waves with Mathematica Course Development – In a New Light: Hands-On Optics… (ECE 198DL1) Instructor – Fields and Waves (ECE329) Course Coordinator – Fields and Waves (ECE329) Instructor – Solid State Devices (ECE 340) Instructor – Nanophotonics (ECE 574)
F’15 S’13, F’13 F’11’12,’14 F’14 S’12, S’,F’13 S’14, S’15
University of Massachusetts Lowell, Lowell, MA
Recitation Instructor – Physics II (Intro E&M) Lab Instructor – Physics II Honors Lab
1
S’11 S’11
Instructor – Introductory Physics (95.141) Develop and present all lectures for 300 -400 student Introductory Physics class. Organize and oversee 8-10 recitation sections. Develop Exams, organize help sessions, run course website, develop and run in -class demos, produce media clips, and integrate social networking. Instructor – Solid State Electronics and Optoelectronic Devices (95.577) Instructor-Introductory Modern Phys ics (95.210) Recitation Instructor-Honors Physics I (95.161) Recitation Instructor-Physics I (95.141)
F’09, S/F’10
F’08 S’08-’10 F’09, F’10 F’07,S’09
Princeton University, Princeton, NJ
Instructor - ELE102 “New Eyes for the World” Course Development and Instruction – ELE 102 “New Eyes for the World” Developed lab for introductory optics course geared towards non -scientists. Designed, developed, organized and held weekly labs for ~30 students.
2007 2004-2006
FUNDING
“Transparent conducting oxides for infrared plasmonic applications, micro -ring resonators for optical sensing”, PI, AFRL, 540K “EAGER: Novel Approaches for Generating and Controlling Light in the Optical No-Man's Land of the Far-IR”, PI, NSF, 152K “Plasmon-Coupled Mid-IR Quantum Dot Emitters”, PI, Sandia National Labs, 50K “Tunable Mid-Wave Infrared Filters”, AFRL, PI, 195K
2015-2018
“MURI: Fundamental Study of Defects and Their Reduction in Type -II Superlattice Materials”, PI, ARO, 6.25M “Understanding the Optical Response of Designer Epsilon -Near-Zero Materials”, PI, National Science Foundation, DMR/MWN, 341K. “CAREER: Quantum Dot Cascade Laser”, National Science Foundation, 400K “Active Plasmonics for Beam Steering and On -Chip Directional Control”, PI, Air Force Office of Scientific Research, Young Investigator Program, 360K. “Narrow-band, frequency agile mid-IR filter”, Air Force Research Labs, STTR Phase I, II, 45K “Tunable Mid-IR Metamaterial Filters”, STTR with Triton Systems Inc., 136K “Mid-Infrared Plasmonics for Sensing Applications”, PI, National Science Foundation, 225K. “Solid State Lighting Energy Frontier Research Center”, University Collaborator with Sandia National Labs, 150K.
2014-2015
2014-2015 2014 2014-2016
2012-2015 2011-2016 2010–2013 2011-2013 2010–2012 2009–2012 2009–2011
“Mid-Infrared Plasmonic Beam Steering”, PI, Air Force Research Labs, 75K
2008–2009
”Mid-infrared Quantum Dot Emitters U tilizing Planar Photonic Crystal Technology”, University Collaborator, Sandia National Labs LDRD, 125K.
2007–2009
“Wavelength selective exothermic materials”, PI, Alloy Surfaces Inc., 95K.
2008–2010
“nBn Detector Development”, PI, Air Force Research Labs, 55K.
2009
“Mid-Infrared Metamaterials”, University Collaborator, Sandia National Labs LDRD, 35K. “Mid-infrared beam steering with plasmonic materials”, PI, Center for Integrated Nanotechnologies (CINT) user proposal.
2008
“GK-12 Vibes and Waves in action”, STEM Faculty Advisor, NSF
2008–2011 2010–2012
PROFESSIONAL SERVICE, MEMBERSHIP
Electronic Materials Conference Committee (2015 -) Committee Chair, 2014, 2015 IEEE Photonics Conference, Photonic Materials and Metamaterials Chairman of Semiconductor Laser Subcommittee, CLEO 2014, CLEO 2015. Associate Editor, Optics Express, 2011 -present Guest Editor, IOP Journal of Optics special edition on Mid -IR/THz Photonics, 2013-2014. Co-organizer of CLEO 50 th Anniversary of the Semiconductor Laser special symposium, 2012. Co-organizer of the 2013 Intersubband Transitions in Quantum Wells conference. Organizer of Metamaterials, Materials for THz, Plasmonics, and Polaritons session for Electronic Materials Conference, 2013.
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CLEO 2010, 2011, 2012 (Semiconductor Laser Subcommi ttee), 2012-2013 IEEE Photonics Society Conference (Photonic Materials subcommittee), NAMBE 2009, ITQW 2009, 2011 SPIE Optics and Photonics (Active Materials) Program Committees Proposal Reviewer NSF ECCS, NSF DMR, NSF Chemistry, NSF SECO, DOE STTR/SBIR, SNSF, Israeli-US Binational Science Foundation, Army Research Office. Reviewer for Nature Materials, Nature Photonics, J. Electronic Materials, IEEE JQSTE, ACS Applied Materials and Interfaces, Nature Communications, Proceedings of the National Academy of S ciences, IEEE Phot. Technol. Lett., Adv. Opt. Mat., Phys. Rev. Lett., Phys. Rev. B, J. Nanoscience and Nanotechnology, Journal of Applied Physics, IEEE Photonics, Crystal Growth and Design, physica status solidi A, J. Quantum Electronics, Nanotechnology, Appl. Phys. Lett., Optics Communications, Optics Express, Optics Letters, J. Modern Optics, Small, Optica, ACS Photonics, IOP Journal of Physics D. Member of American Physical Society, IEEE, OSA, SPIE. IEEE Optoelectronic Devices Technical Committee (2015 -present)
INVITED TALKS Conference on Lasers and Electro-Optics (CLEO), San Jose, CA
2016
MRS Fall Meeting, Boston, MA
2015
MRS Spring Meeting, San Francisco, CA IEEE Summer Topicals, Montreal, CA Device Research Conference, Santa Barbara, CA NSF EPMD CAREER Workshop SPIE Optics and Photonics, San Diego, CA, “Engineered Metals for Mid-IR Plasmonics” SPIE Optics and Photonics, San Diego, CA, “Selective Thermal Emission from thin-film metasurfaces” National Science Foundation Workshop, Prague, CZ , “Mid-IR Photonics” Physics of Quantum Electronics 2013, Snowbird, UT, “Designer Mid-IR Metals” Abdus Salam International Centre for Theoretical Physics "Workshop on Nanophotonics", Trieste, IT: “Mid-IR Plasmonics” SPIE Photonics Asia, Beijing, China: “Making the mid-infrared nano with plasmonics and metamaterials” Center for Nanoscale Science and Technology (CNST), University of Illinois: “Making the mid-infrared nano with plasmonics and metamaterials” Physics of Quantum Electronics 2012, Snowbird, UT, “Mid-IR Selective Thermal Metamaterial Emitters” Physics of Quantum Electronics 2011, Snowbird, UT, “Enhanced Funneling of Light Using Epsilon Near Zero Metamaterials ” AFOSR Nanophotonics Program Review, Cambridge, MA, “Mid-IR Plasmonics and ENZ Metamaterials” SPIE Optics and Photonics 2010, San Diego, CA, “Active Mid-IR Plasmonics” Physics of Quantum Electronics 2010, Snowbird, UT, “Mid-IR Plasmonics” Photonics West 2010, San Francisco, CA , “Mid-IR Emission from InAs Quantum Dots” 3 rd International Workshop on Quantum Cascade Lasers: Monte Verita, Switzerland, “Mid-IR Electroluminescence from InAs Quantum Dots” 2 nd International Workshop on Quantum Cascade Lasers: Bari, Italy “Nonlinear Quantum Cascade Lasers” Conference on Modulated Semiconductor Structures: Albuquerque, NM “Stimulated Electronic Anti-Stokes Raman Emission from QC Lasers” Materials Research Society, Fall: Boston, MA “(110) Quantum Dots: Growth, Single-Dot Emission and Cleaved-Edge Alignment”
2015 2014 2014 2014 August 2013 August 2013 April 2013 January 2013 December 2012 November 2012 April 2012 January 2012 January 2011 December 2010 August 2010 January 2010 January 2010 September 2008 September 2006 May 2005 November 2005
INVITED SEMINARS Naval Research Lab, Optoelectronics Seminar University of Iowa, Optical Science and Technology Center Symposium University of Michigan, C-PHOM Seminar University of Massachusetts Lowell, Physics Colloquium Tufts University, ECE Departmental Seminar Princeton University, ECE Departmental Seminar Stevens Institute of Technology Air Force Research Lab Materials and Manufacturing Directorate Notre Dame University, Dept. of Electrical Engineering Purdue University, Dept. of Physics: Designer Mid-Infrared Metals
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August, May 1, April, March,
2015 2015 2015 2015
April, 2014 March, 2014 March, 2014 August, 2013 March, 2013 February 2013
Yale University, Dept. of Electrical Engineering: Mid-Infrared Plasmonics Triton Systems Inc. Technical Seminar: Mid-Infrared Plasmonics Society of Applied Spectroscopy, New England Chapter, Seminar Series: “MidInfrared Plasmonics and Nanotechnology” BAE Systems Inc. Technical Seminar: The UMass Lowell Mid-IR Photonics Lab Brown University Optics and Optoelectronics Seminar Series: “Mid-IR Photonics” Physical Sciences Inc. Technical Seminar: Mid-IR Photonics UMass Boston Seminar Series, “Mid-IR Photonics” Materials Science Seminar Series, University of New Hampshire “Mid-IR Photonics” Lowell Regional Physics Alliance “UMass Lowell Photonics Center: Hands on Physics for Local Students” Alloy Surfaces, Boothwyn, PA: “Mid-IR Photonics” Lincoln Labs Technical Seminar
April, 2011 August 2010 February 2010
UMass Lowell, Center For High Rate Nanomanufacturing Seminar Series “Mid-IR Photonics”
February 2008
October 2009 May 2009 November 2008 May 2009 May 2008 April 2008 February 2008 October 2007
UNIVERSITY AND DEPARTMENTAL SERVICE Graduate Committee
2014-15
Faculty Search Committee
2014-15
Search Committee Member, College Honors Program Director
2013
Grand Challenge Course Faculty Advisor
F’12
UIUC Dept. of Electrical and Computer Engineering Colloquium Committee UIUC Dept. of Electrical and Computer Engineering Curriculum Committee
2012-2014 2012-2014
UML Dept. of Physics Undergraduate Committee
2008–Present
UMass Lowell Committee on Teaching and Learning
2008–Present
UML Dept. of Physics Graduate Committee
2007–Present
UML Strategic Planning Committee, Undergraduate Education Subcommittee
2009–2010
UML Chapter Society of Physics Students, Faculty Advisor
2007–Present
UML Graduate Physics Association, Faculty Advisor Physics Department Publicity Committee
2007–Present 2007–Present
Steering Committee, Lowell Regional Physics Alliance
2007–2010
OUTREACH “Build Your Own Optical Communication System”, Principal Scholars Program
Dec. 2015
“Jell-O Optics”, Campus Middle School for Girls
Dec. 2015
“Hands-On Nanotechnology Activity”, Principal Scholars Program.
Dec. 2014
“Build Your Own Optical Communication System”, Campus Middle School for Girls “Build Your Own Hard Drive” activity day, Principal Scholars Program.
Dec. 2014 November 2013
Planned, developed, and ran Physics Activity Days at UML Photonics Center for Lowell High Students: science activity, a facilities tour, and LN2 ice cream.
2008, -10, -11
Gear Up Science Activity: Build Your Own Hard Drive
October, 2007
Taught Lowell High Physics Class “Physics of the Curveball” Princeton University: Developed, organized, and ran Engineering Activity Days (2006, 2007) for Lawrence, Trenton high students, tables for Science and Engineering Expo (2004-2006).
November, 2007 2004–2007
STUDENTS Post-Doc Prof. Stephanie Law, 2011-2014, currently Asst. Prof. at University of Delaware Researchers Dr. Yujun Zhong, 2011-present Current Lan Yu (4 th year PhD) William Streyer (4 th year PhD) Runyu Liu (3 rd year PhD) Narae Yoon (1 s t year PhD) Sukrith Dev (1 s t year, PhD) Daniel Zuo (UIUC, 5 th year, PhD, co-advised with SL Chuang)
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Former Aaron Rosenberg, MS 2014 Andrew Taylor, MS 2013, Lockheed Martin Troy Ribaudo Ph.D 2011, Currently at Lam Research David Adams Ph.D 2012, Post-doc Harvard Medical School Joshua Mason Ph.D 2012, Post -doc, Advanced Materials Lab, UMass Lowell Krongtip Termkoa Ph.D 2010 Karen Freitas M.S. 2008 Undergraduates Daniel Schwartz (UIUC, S2015), Josephine Hovhannessian, REU UC-Merced (Su. 2014), Narae Yoon (UIUC, Su. 2014, F2014), Sukrith Dev (F2014), Zipporah Goldenfeld (F2014), Brian Vaughn (UIUC S,F2013), Joshua Surya (UIUC S2013), Matthew Ives (UIUC S2013), Simrin Wahal (UIUC S2013), Travis Hamilton (UIUC S2013), Eric Sanchez (UIUC AY2012/2013), Nish Nookola (UIUC AY 2012/13), Robby Regalbuto (Summer student UIUC 2012), Tom Jacobs (UIUC S2012, AY2012 2013), Gino Rooney (UIUC S2012, AY2012 -2013), Torin Kilpatrick (UIUC, AY2012-13), Mahd Bateresh (UIUC, 2012), Christopher Reidy (UML B.S. 2008, Oregon State University Ph.D student), Melissa Spencer (UML B.S. 2008, Lincoln Labs), Zachariah Johnson (B.S. 2010, UML Masters Program in Physics), Cynthia Mitchell (UML), John Lipiello (UML), Tom Sinisi (UML)
PRESS AND PUBLICITY September 2013, “Tiny Antennas Let Long Waves See in the Infrared”, R&DMag, PhysOrg, LaserFocusWorld, and others. November 2009, Nashua Telegraph, “Pop goes the Physics Class”: Article focusing on my integration of popular movie clips into Physics I lectures. October 2009, AFOSR Press Release, “Air Force invests over $14M for 2010 Young Investigators Research Program”: Details of AFOSR Young Investigator Award. February 2009, PhysOrg.com, “Quantum Dots as Mid -Infrared Emitters”: Article summarizing results published in Appl. Phys. Lett. article demonstrating room temperature electroluminescence from self assembled InAs quantum dots. UML Press Releases and Publications: 2008 UML Research Magazine, UML Shuttle April 2008, UML Alumni Magazine Summer 2010.
PEER REVIEWED PUBLICATIONS 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13.
Invited: “Engineering the Reststrahlen Band with Hybrid Plasmon/Phonon Excitations”, W. Streyer, K. Feng, Y. Zhong, A.J. Hoffman, and D. Wasserman, under review. “Buried Extraordinary Optical Transmission Gratings”, R. Liu, X . Zhao, C. Roberts, X. Li, V. Podolskiy, and D. Wasserman, accepted for publication, Advanced Materials . “Mid-infrared electroluminescence from InAs type -I quantum wells grown on InAsP/InP metamorphic buffers”, D. Jung, L. Yu, D. Wasserman, M. L. Lee, J. Appl. Phys. , 118, 183101 (2015). Invited Review: “Photonic Materials, Structures and Devices for Reststrahlen Band Optics”, K. Feng, W. Streyer, Y. Zhong, A.J. Hoffman, and D. Wasserman, Optics Express , 23, A1418 (2015). "Selective absorbers and thermal emitters for far -infrared wavelengths ", W. Streyer, K. Feng, Y. Zhong, A.J. Hoffman, and D. Wasserman, Appl. Phys. Lett., 107, 081105 (2015) "Localized surface phonon polariton resonances in polar gallium nitride" , K. Feng, W. Streyer, S.M. Islam, J. Verma, D. Jena, D. Wasserman and A.J. Hoffman, Appl. Phys. Lett., 107, 081108 (2015) “Direct Minority Carrier Transport Characterization of InAs/InAsSb Superlattice nBn Photodetect ors”, D. Zuo, R. Liu, D. Wasserman, J. Mabon, Z.-Y. He, S. Liu, Y.-H. Zhang, E.A. Kadlec, and E.A. Shaner, Appl. Phys. Lett., 106, 071107 (2015). “Platinum germanides for mid - and long-wave infrared plasmonics”, J.W. Cleary, W.H. Streyer, N. Nader, S. Vangala, I. Avrutsky, B. Claflin, J. Hendrickson, D. Wasserman, R.E. Peale, W. Buchwald, R. Soref, Optics Express , 23, 3316-3326 (2015) . Invited Review: “Mid-Infrared Plasmonic Materials”, Y. Zhong, S. Malagari, T. Hamilton, and D. Wasserman, J. Nanophotonics , 9(1), 093791 (2015). “Mid-infrared emission from In(Ga)Sb layers on InAs(Sb)”, R. Liu, Y. Zhong, L. Yu, H. Kim, S. Law, J.-M. Zuo, and D. Wasserman, Optics Express, 22, 24466 (2014). “Controlling quantum dot energies using submonolayer bandstructure engineering”, L. Yu, D. Jung, S. Law, J. Shen, J.J. Cha, M.L. Lee, D. Wasserman, Appl. Phys. Lett., 105, 081103 (2014). “Design, Fabrication, and Characterization of Near -IR Gold Bowtie Nanoantenna Arrays”, H. Chen, A.M. Bhuiya, R. Liu, D. Wasserman, and K.C. Touissant, Jr., J. Phys. Chem. C, 118, 20553 (2014). “Editorial: Special issue on mid-infrared and THz photonics”, D. Wasserman, R. Singh, and T. Akalin, Invited Editorial, J. Opt., 16, 090201 (2014)
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14. “Doped semiconductors with Band-Edge Plasma Frequencies”, S. Law, R. Liu, D. Wasserman, J. Vac. Sci. Technol. B, 32, 05260 1-7 (2014). 15. Invited: “Flat mid-infrared composite plasmonic materials using lateral doping -patterned semiconductors”, A. Rosenberg, J. Surya, R. Liu, W. Streyer, S. Law, L.S. Lesl ie, R. Bhargava, and D. Wasserman, J. Opt., 16, 094012 (2014). 16. "Engineering absorption and blackbody radiation in the far-infrared with surface phonon polaritons on gallium phosphide", W. Streyer, S. Law, A. Rosenberg, C. Roberts, V.A. Podolskiy, A.J. Hoffman, and D. Wasserman, Appl. Phys. Lett., 104, 131105 (2014). 17. "ENZ-Enhanced Light Transmission through a Subwavelength Slit", S. Inampudi, D. C. Adams, T. Ribaudo, D. Slocum, S. Vangala, W.D. Goodhue, D. Wasserman, and V. A. Podolskiy, Phys. Rev. B, 89, 125119 (2014). 18.
“All-Semiconductor Plasmonic Perfect Absorbers”, S. Law, T. Kilpatrick, L. Yu, T. Ribaudo, C. Roberts, V.A. Podolskiy, E.A. Shaner, and D. Wasserman, Phys. Rev. Lett., 112, 017401 (2014).
19. "All-Semiconductor Plasmonic Nanoantennas for Infrared Sensing", S. Law, L. Yu, A. Rosenberg, and D. Wasserman, Nano Lett., 13, 4560 (2013). 20. "Degenerately doped InGaBi:As as a highly conductive and transparent contact material in the infrared range", Y. Zhong, P.B. Dongmo, L. Gong, S. Law, B. Chase, D. Wasserman, and J.M.O. Zide, Optics Materials Express, 3, 1197 (2013). 21. "Wafer-Scale Production of Uniform InAsyP1-y Nanowire Array on Silicon for Heterogeneous Integration", J.C. Shin, A. Lee, P.K. Mohseni, D.Y. Kim, L. Yu, J.H. Kim, H.J. Kim, W.J. Choi, D. Wasserman, K.J. Choi, X. Li, ACS Nano (2013) 22. "Direct observation of minority carrier lifetime improvement in InAs/GaSb type-II superlattice photodiodes via interfacial layer control", D. Zuo, P. Xiao, D. Wasserman, and S.L. Chuang, Appl. Phys. Lett., 102, 141107 (2013) 23. "Strong absorption and selective emission from engineered metals with thin dielectric films", W. Streyer, S. Law, T. Jacobs, G. Rooney, and D. Wasserman, Optics Express, 21, 9113 (2013). 24. “Near-field infrared absorption of plasmonic semiconductor microparticles studied using atomic force microscope infrared spectroscopy”, J. Felts, S. Law, C.M. Roberts, V.A. Podolskiy, D. Wasserman, and W.P. King, Appl. Phys. Lett., 102, 152110 (2013). 25. "Epitaxial growth of engineered metals for mid-infrared plasmonics", S. Law, L. Yu, D. Wasserman, J. Vac. Sci. Technol. B, 31, 03C121 (2013). 26. Invited Review: “Towards nano-scale photonics with micro-scale photons: The opportunities and challenges of mid-infrared plasmonics”, S. Law, V. Podolskiy, and D. Wasserman, Nanophotonics, 2, 104 (2013) 27. “2.8µm emission from type-I quantum wells grown on InAsxP1-x/InP metamorphic graded buffers”, D. Jung, Y. Song, L. Yu, D. Wasserman, and M.L. Lee, Appl. Phys. Lett., 101, 251107 (2012) 28. “Electroluminescence from quantum dots fabricated with nanosphere lithography”, L. Yu, S. Law, and D. Wasserman, Appl. Phys. Lett., 101, 103105 (2012). 29. “Mid-infrared designer metals”, S. Law, D.C. Adams, A.M. Taylor, and D. Wasserman, Optics Express, 20, 12155 (2012). 30. “Strong coupling of molecular and mid-infrared perfect absorber resonances”, J.A. Mason, G. Allen, V. Podolskiy, and D. Wasserman, IEEE Photonics Technology Letters, 24, 31 (2012). 31. “Enhanced Light Funneling Through Subwavelength Apertures Using Epsilon Near Zero Metamaterials”, D.C. Adams, N. Inampudi, T. Ribaudo, D. Slocum, N. Kuhta, S. Vangala, W. Goodhue, V.A. Podolskiy, and D. Wasserman, Phys. Rev. Lett., 107, 133901 (2011). 32.
“Voltage-controlled active mid-infrared plasmonic devices”, K. Anglin, T. Ribaudo, D.C. Adams, X. Qian, W.D. Goodhue, S. Dooley, E.A. Shaner and D. Wasserman, Journal of Applied Physics, 109, 123103 (2011).
33. “Strong absorption and selective thermal emission from midinfrared metamaterials”, J.A. Mason, S. Smith, and D. Wasserman, Applied Physics Letters, 98, 241105 (2011). 34.
“Multiscale beam evolution and shaping in corrugated plasmonic structures”, S. Thongrattanasiri, D.C. Adams, D. Wasserman and V. Podolskiy,Optics Express, 19, 9269 (2011).
35. “Observation of Rabi-Splitting from Surface Plasmon Coupled Conduction-State Transitions in Electrically-Excited InAs Quantum Dots”, B.S. Passmore, D.C. Adams, T. Ribaudo, P. Davids, W.W. Chow, S.A. Lyon, D. Wasserman, and E.A. Shaner, Nano-Letters, 11, 338 (2011). 36.
“Selective Thermal Emission from Patterned Steel Substrates”, J. Mason, D.C. Adams, Z. Johnson, S. Smith, A.W. Davis, and D. Wasserman, Opt. Express, 18, 25912 (2010).
37.
“Plasmonic mid-infrared beam steering”, D.C. Adams, S. Thongrattanasiri, T. Ribaudo, V. Podolskiy, and D. Wasserman, Appl. Phys. Lett., 96, 201112 (2010).
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38. "High-optical-quality nanosphere lithographically formed InGaAs quantum dots using molecular beam epitaxy assisted GaAs mass transport and overgrowth", X. Qian, S. Vangala, D. Wasserman, and W.D. Goodhue., J. Vac. Sci. Technol. B, 28(3), C3C9 (2010). 39. “Mid-infrared doping tunable transmission through subwavelength metal hole arrays on InSb”, B.S Passmore, D.G. Allen, S. R. Vangala, W.D. Goodhue, D. Wasserman, and E.A. Shaner, Optics Express, 17 10223 (2009). 40. “Active Control and Spatial Mapping of Midinfrared Propagating Surface Plasmons”, T. Ribaudo, S.S. Howard, C. Gmachl, X. Wang, F.-S. Choa, and D. Wasserman, Opt. Express, 17, 7019 (2009). 41.
“Spectral and spatial investigation of mid-infrared surface waves on a plasmonic grating”, T. Ribaudo, D.C. Adams, B. Passmore, E.A. Shaner and D. Wasserman, Appl. Phys. Lett. 94, 201109 (2009).
42. “Room temperature electroluminescence from InAs quantum dots”, D. Wasserman, T. Ribaudo, S.A. Lyon, S.K. Lyo, and E.A. Shaner, Appl. Phys. Lett., 94, 061101 (2009). 43. “Loss mechanisms in mid-infrared extraordinary optical transmission gratings”, T. Ribaudo, K. Freitas, E.A. Shaner, J.G. Cederberg, D. Wasserman, Opt. Express 17 666 (2009). 44. High k-space lasing in a dual-wavelength quantum cascade laser”, K.J. Franz, S. Menzel, A.J. Hoffman, D. Wasserman, J.W. Cockburn and C. Gmachl, Nature Photonics, 3, 50 (2009). 45.
“Uniform InGaAs quantum dot arrays fabricated using nanosphere lithography”, X. Qian, J. Li, D. Wasserman, W.D. Goodhue, Appl. Phys. Lett. 93 231907 (2008).
46.
“High-performance quantum cascade lasers. Optimized design through waveguide and thermal modeling”, S.S. Howard, Z. Liu, D. Wasserman, A.J Hoffman, T.S. Ko, C.F. Gmachl, IEEE J. Sel. Top. in Quant. Elect., 13, 1054 (2007).
47. “Current-tunable mid-infrared extraordinary transmission gratings”, E.A. Shaner, J. Cederberg, D. Wasserman, Appl. Phys. Lett., 91, 181110 (2007). 48. “Mid-Infrared doping tunable extraordinary transmission from sub-wavelength gratings”, D. Wasserman, E.A. Shaner, and J.G. Cederberg, Appl. Phys. Lett., 90, 191102 (2007). 49. “Negative Refraction in Semiconductor Metamaterials” A.J. Hoffman, L. Alekseyev, S.S. Howard, K.J. Franz, D. Wasserman, V.A. Podolskiy, E.E. Narimanov, D.L. Sivco, and C. Gmachl, Nature Materials, 6, 946 (2007) 50.
“Narrow width, low-ridge configuration for high-power quantum cascade lasers”, A. Lyahk, P. Zory, D. Wasserman, G. Shu, C. Gmachl, D. Bour Appl. Phys. Lett., 90, 141107 (2007)
51. “Evidence of cascaded emission in a dual-wavelength quantum cascade laser”, K.J. Franz, D. Wasserman, A.J. Hoffman, D.C. Jangraw, K.-T, Shiu, S.R. Forrest, and C. Gmachl, Appl. Phys. Lett., 90, 091104 (2007). 52.
“Multiple wavelength polarized mid-infrared emission from InAs quantum dots”, D. Wasserman, C. Gmachl, S.A. Lyon, and E.A. Shaner, Appl. Phys. Lett., 88, 191118 (2006).
53.
“Room Temperature Continuous-wave Quantum Cascade Lasers Grown by MOCVD without Lateral Regrowth”, Z. Liu, D. Wasserman, S.S. Howard, A.J. Hoffman, C. Gmachl, X. Wang, T. Tanbun-Ek, L. Cheng, and Fow-Sen Choa, IEEE Photonics Technology Letters, 18, 1347 (2006).
54. “Anomalous spin polarization of GaAs two-dimensional hole systems”, R. Winkler, E. Tutuc, S.J. Papadakis, S. Melinte, M. Shayegan, D. Wasserman, and S.A. Lyon, Phys. Rev. B, 72, 195321 (2005). 55. “Stimulated electronic Anti-Stokes Raman emission in Quantum Cascade lasers”, A. A Gomez-Iglesias, D. Wasserman, C. Gmachl, A. Belyanin, and D.L. Sivco, Appl. Phys. Lett., 87, 261113 (2005). 56. “6 nm half-pitch lines and 0.04μm2 static random access memory patterns by nanoimprint lithography”, M.D. Austin, W. Zhang, H.X. Ge. D. Wasserman, S.A. Lyon, and S.Y. Chou, Nanotech., 8, 1058 (2005). 57. “Cleaved-edge overgrowth of aligned quantum dots on strained layers of InGaAs”, D. Wasserman and S. A. Lyon, Appl. Phys.Lett., 85, 5352 (2004). 58. “Scanning near-field photoluminescence mapping of (110) InAs-GaAs self-assembled quantum dots”, M. Hadjipanayi, A.C. Maciel, J.F. Ryan, D. Wasserman, and S.A. Lyon, Appl. Phys. Lett., 85, 2535 (2004). 59. “Fabrication of 5nm linewidth and 14 nm pitch features by nanoimprint lithography”, Michael D. Austin, Haixiong Ge, Wei Wu, Mingtao Li, Zhaoning Yu, D. Wasserman, S.A. Lyon, and Stephen Y. Chou, Appl. Phys. Lett., 84, 5299 (2004). 60. “Formation of self-assembled quantum dots on (110) GaAs Substrates”, D. Wasserman, S.A. Lyon, M. Hadjipanayi, A. Maciel, and J .F. Ryan, Appl. Phys. Lett.. 83, 5050 (2003). 61. “Negative differential Rashba effect in two-dimensional hole systems”, B. Habib, E. Tutuc, S. Melinte, M. Shayegan, D. Wasserman, S.A. Lyon, and R. Winkler, Appl. Phys. Lett., 85, 3151 (2004). 62. “Characterization of GaAs grown by molecular beam epitaxy on vicinal Ge(100) substrates”, A. Wan, V. Menon, S.R. Forrest, D. Wasserman, S. A. Lyon, and A. Kahn, J. Vac. Sci. Technol. B, 22, 1893 (2004). 63. “Spin splitting in GaAs (100) two-dimensional holes”, B. Habib, E. Tutuc, S. Melinte, M. Shayegan, D. Wasserman, S. A. Lyon, and R. Winkler, Phys. Rev. B, 69, 113311 (2004).
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64. “Mid-infrared luminescence from InAs quantum dots in unipolar devices”, D. Wasserman and S.A. Lyon, Appl. Phys. Lett., 81, 2848 (2002). 65. Mid-infrared electroluminescence from InAs quantum dots in p-n junctions and unipolar tunneling structures” D. Wasserman and S.A. Lyon, Physica Status Solidi B, 224, 585 (2001). 66. “Probing dopant incorporation in InAs/GaAs QDIPs by polarization-dependent Fourier transform infrared spectroscopy”, Z. Zhao, C. Yi, A.D. Stiff-Roberts, A.J. Hoffman, D. Wasserman, C. Gmachl, Infrared Physics & Technology, 51 131 (2007). 67. “DX-like centers in InAs/GaAs QDIPs observed by polarization-dependent Fourier transform infrared spectroscopy”, Z. Zhao, C. Yi, A.D. Stiff-Roberts, A.J. Hoffman, D. Wasserman, C. Gmachl, J. Vac. Sci. & Technol. B, 25 1108 (2007).
CONFERENCE PROCEEDINGS 1.
“Diffusion Characterization Using Electron Beam Induced Current and Time-Resolved Photoluminescence of InAs/InAsSb Type-II Superlattices”, D. Zuo, R. Liu, D. Wasserman, J. Mabon, Z. He, S. Liu, Y.-H. Zhang, E. Kadlec, B. Olson, E.A. Shaner, CLEO: Science and Innovations, SM2G.4 (2015)\ 2. “Localized Surface Phonon Polariton Resonators in GaN”, K. Feng, W. Streyer, S.M. Islam, J. Verma, D. Jena, D. Wasserman, A. Hoffman, QELS Fundamental Science, FTu2E.7, (2015). 3. “Platiinum germanides for long-wavelength infrared plasmonics”, N. Nader, W. Streyer, S. Vangala, D. Wasserman, J.R. Hendrickson, and J.W. Cleary, FiOS, FTu1E5, (2014) 4. “All-Semiconductor Plasmonic Nano-Antennas” S. Law, L. Yu, A. Rosenberg, and D. Wasserman, CLEO: QELS Fundamental Science, FM2K.1 2014 5. “All-Semiconductor Negative Plasmonic Absorbers” C. Roberts, S. Law, T. Kilpatrick, L. Yu, T. Ribaudo, E.A. Shaner, D. Wasserman, and V.A. Podolskiy, CLEO: QELS Fundamental Science, FM1C.3 2014 6. “Controlling Quantum Dot Energies Using Submonolayer Bandstructure Engineering” L. Yu, S. Law, D. Jung, M.L. Lee, and D. Wasserman, CLEO: Science and Innovation, Stu3H.6 2014 7. “Mid-IR Plasmonics with Engineered Semiconductor Metals”, S. Law, C. Roberts, S. Inampudi, A. Rosenberg, V. Podolskiy, and D. Wasserman, Workshop on Optical Materials, OW1D.3 (2014). 8. “All-Semiconductor Plasmonic Perfect Absorber”, S. Law, C. Roberts, T. Kilpatrick, L. Yu, T. Ribaudo, E.A. Shaner, V.A. Podolskiy, and D. Wasserman, CLEO: Science and Innovation, CM2F.6 (2013). 9. “Selective thermal emission from thin-film metasurfaces", W Streyer, S Law, J Mason, DC Adams, T Jacobs, G Rooney, D Wasserman, SPIE NanoScience+ Engineering, Proc. SPIE 8808, p. 88080V-88080V-12, 2013 10. “Making the mid-infrared nano with designer plasmonic materials”, S. Law, J. Felts, C. Roberts, V. Podolskiy, W.P. King, D. Wasserman, Proc. SPIE 8555-1 (2012). 11. "CO2 sensing with a 2005 nm thulium holmium co-doped fiber laser", R. Zhou, S. McKeown, B. Griffin, B. Amnueypornsakul, H. Huang, S. Eckhoff, D. Wasserman, and L. Goddard, in Optical Sensors, OSA Technical Digest (online) (Optical Society of America, 2012), paper STh2B.4. 12. "Selective Thermal Emission from Patterned Steel Surfaces", J. Mason, D. Adams, S. Smith, Z. Johnson, A. Davis, and D. Wasserman, in CLEO:2011 - Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper JTuI42. 13. "ENZ-enhanced transmission through subwavelength slits", S. Inampudi, D. Slocum, D. Adams, S. Vangala, W. Goodhue, D. Wasserman, and V. Podolskiy, in CLEO:2011 - Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper JTuI56. 14. "Toothed Mid-Infrared Metal-Insulator-Metal Waveguides", K. Anglin, D. Adams, T. Ribaudo, and D. Wasserman, in CLEO:2011 - Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper CTuS4. 15. "Funneling Light Through a Subwavelength Aperture Using Epsilon-Near-Zero Materials", D. Slocum, D. Adams, S. Inampudi, S. Vangala, W. Goodhue, V. Podolskiy, and D. Wasserman, in Quantum Electronics and Laser Science Conference, OSA Technical Digest (CD) (Optical Society of America, 2011), paper QThA3. 16. “Active Mid-Infrared Plasmonic Beam Steering Devices”, D.C. Adams, T. Ribaudo, S. Thongrattanasiri, E.A. Shaner, V. Podolskiy, and D. Wasserman, Proc. SPIE, 7756-41 (2010). 17. "Beam Steering of Mid-Infrared Light with Active Plasmonic Structures", D. Adams, S. Thongrattanasiri, V. Podolskiy, and D. Wasserman, in Conference on Lasers and Electro-Optics, OSA Technical Digest (CD) (Optical Society of America, 2010), paper CFB7. 18. "Evolution of Beaming Pattern in Corrugated Mid-IR Plasmonic Structures", S. Thongrattanasiri, D. Adams, D. Wasserman, and V. Podolskiy, in Quantum Electronics and Laser Science Conference, OSA Technical Digest (CD) (Optical Society of America, 2010), paper QMF5. 19. "Active Control and Spatial Mapping of Mid-Infrared Propagating Surface Plasmons", T. Ribaudo, E. Shaner, S. Howard, C. Gmachl, X. Wang, F. Choa, and D. Wasserman, in Conference on Lasers and Electro Optics/International Quantum Electronics Conference, OSA Technical Digest (CD) (Optical Society of America, 2009), paper IMB1 20. “Mid-Infrared Emitters Utilizing Intersublevel Transitions in Self-Assembled InAs Quantum Dots”, T. Ribaudo, B.S. Passmore, D.C. Adams, X. Qian, S. Vangala, W.D. Goodhue, E.A. Shaner, S.A. Lyon, and D. Wasserman, Proc. SPIE 7616, 7616A1-1, (2010).
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21.
“Active Mid-Infrared Plasmonic Beam Steering Devices”, D.C. Adams, T. Ribaudo, S. Thongrattanasiri, E.A. Shaner, V. Podolskiy, and D. Wasserman, Proc. SPIE, 7756-41 (2010).
22.
“Active Control of Propagating Waves on Plasmonic Surfaces”, T. Ribaudo, E.A. Shaner, S.S. Howard, C. Gmachl, X.J. Wang, F.-S. Choa, and D. Wasserman, Proc. SPIE 7221-24, 2 (2009).
23. “Mid-Infrared Emitters Utilizing Intersublevel Transitions in Self-Assembled InAs Quantum Dots”, T. Ribaudo, B.S. Passmore, D.C. Adams, X. Qian, S. Vangala, W.D. Goodhue, E.A. Shaner, S.A. Lyon, and D. Wasserman, Proc. SPIE 7616, 7616A1-1, (2010). 24. "Laser Action at High k-Space Values in Anti-Correlated Multi-Wavelength Quantum Cascade Lasers", S. Menzel, K. Franz, D. Wasserman, A. Hoffman, J. Cockburn, and C. Gmachl, in Conference on Lasers and ElectroOptics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest (CD) (Optical Society of America, 2008), paper CTuP1. 25. "Mid-Infrared Beam Propagation and Modulation in Extraordinary Transmission Gratings", E. Shaner, B. Passmore, A. Grine, and D. Wasserman, in Plasmonics and Metamaterials, OSA Technical Digest (CD)(Optical Society of America, 2008), paper MMD6 26. Loss Mechanisms in Extraordinary Optical Transmission Gratings", T. Ribaudo, K. Freitas, D. Wasserman, E. Shaner, and J. Cederberg, " in Plasmonics and Metamaterials, OSA Technical Digest (CD) (Optical Society of America, 2008), paper MWB2. 27. "Electrically Tunable Mid-Infrared Extraordinary Optical Transmission Gratings", D. Wasserman, E. Shaner, and J. Cederberg, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest (CD) (Optical Society of America, 2008), paper CThBB3. 28.
“Doping Tunable Enhanced Extraordinary Optical Transmission Gratings”, D. Wasserman, J. Cederberg, and E.A. Shaner, Proc. SPIE 6760, 67600A (2007).
29. "Cascaded Emission from a Dual-Wavelength Quantum Cascade Laser", K. Franz, D. Wasserman, A. Hoffman, C. Gmachl, K. Shiu, and S. Forrest, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper CTuE3. 30. "Narrow STRIPE-Width, Low-Ridge Configuration for High Power Quantum Cascade Lasers", A. Lyakh, P. Zory, D. Wasserman, G. Shu, C. Gmachl, M. D'Souza, D. Botez, and D. Bour, in Conference on Lasers and ElectroOptics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper CTuO1. 31. "Nonlinear Quantum Cascade Lasers: Toward Broad Tunability and Short-Wavelength Operation", F. Xie, D. Smith, V. Chaganti, A. Belyanin, D. Wasserman, C. Gmachl, J. Kono, M. Belkin, and F. Capasso, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper CTuO6. 32. "Difference Frequency Generation from Integrated Nonlinearities in Two-Wavelength Quantum Cascade Lasers", D. Wasserman, S. Howard, C. Gmachl, A. Belyanin, and D. Sivco, in Conference on Lasers and Electro Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD) (Optical Society of America, 2007), paper JWA138. 33. “MOCVD growth and regrowth of quantum cascade lasers”, F.-S. Choa, L. Cheng, X. Ji, Z. Liu, D. Wasserman, S.S. Howard, C.F. Gmachl, X. Wang, J. Fan, and J. Khurgin, Proc. SPIE 6485, 64850N (2007). 34. “Mid-infrared electroluminescence from InAs quantum dots”, D. Wasserman, S.A. Lyon, C. Gmachl, J. Cederberg, and E.A. Shaner, Proc. SPIE Vol. Vol.6386, p.63860E (2006). 35. "Approaches to Compact Quantum Cascade Laser Modules with Integrated Coolers", J. Chen, Z. Liu, D. Wasserman, C. Gmachl, D. Sivco, and A. Cho, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications Systems Technologies, Technical Digest (CD) (Optical Society of America, 2005), paper JTuC85. 36. “110 InAs Quantum Dots: Growth, Single-Dot Luminescence and Cleaved Edge Alignment”, D. Wasserman, E.A. Shaner, S.A. Lyon, M. Hadjipanayi, A.C. Maciel, and J.F. Ryan, MRS Fall 2004 Meeting Proc. “Progress in Compound Semiconductor Materials IV--Electronic and Optoelectronic Applications”, Vol. 829, (2005).
BOOK CHAPTERS 1.
“Electroluminescence from III-V self-assembled quantum dots”, D. Wasserman and S.A. Lyon, Book Chapter for "The Handbook of Electroluminescent Materials", edited by Prof. D.R. Vij, Department of Physics, Kurukshetra University, India, Institute of Physics Publishing, Bristol, U.K (2004).
REVIEWS 1.
“Active Mid-Infrared Plasmonic Beam Steering”, D. Wasserman, SPIE News Room, September, 2010, (http://spie.org/x41530.xml?highlight=x2412&ArticleID=x41530).
2.
“Active Surface Plasmons: Tuning of surface plasmons leads to new optoelectronic devices”, D. Wasserman, Laser Focus World, January (2008).
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