David Crouse

Professor
Department(s) / Center(s)

Electrical & Computer Engineering

David  Crouse Headshot

Biography

I joined Clarkson University in January 2016 as the Chairman of the Electrical and Computer Engineering Department. Previous to this, from 2002 to 2014, I was a professor at the Andrew Grove School of Engineering at the City College of New York, in the Department of Electrical and Computer Engineering. And prior to this, I worked at Intel's D1C fabrication facility in Hillsboro Oregon. My education in materials and optics started at Purdue University, where I received a B.S. in physics in 1997, followed by a Ph.D. in Electrical Engineering in 2002 from Cornell University. My research interests span a wide range of topics, but generally involve the interaction of fields with matter. Thus the traditional fields of photonic crystals, plasmonic crystals, optical devices, and more recently metamaterials are fields that are researched in my laboratory. My research involves strong collaborations with industry, and I have led a few organizations that foster such collaborations, including the New York State Center for Advanced Technology in Photonics Applications, the National Science Foundation's Industry/University Cooperative Research Center for Metamaterials, and started a company Phoebus Optoelectronics in 2003 that specializes in specialized optics and optoelectronic materials and device design and fabrication.

Teaching Interests

Dr. Crouse teaches undergraduate and graduate courses related to materials, solid-state physics, electromagnetism, optoelectronics and metamaterials.

Research Interests

  • Metamaterials: Three dimensional metamaterials and two dimensional metasurfaces, with different metamaterials operating across the spectral range of ultraviolet-visible-infrared-THz-microwave; acoustic metamaterials.
  • Nanotechnology: Metal and semiconductor nanowire and nano-dot fabrication, with application to quantum wire photodetectors.
  • Photonic and Plasmonic Crystals: General photonic crystals, plasmonic structures and crystals, and hybrid optical components with photonic crystals/plasmonic crystals. Applications include biosensing, optical and infrared filters, imaging systems.
  • Special and General Relativity: Research interests in this area involve studying special and general relativity in atomized space-time, what is time and space, and what is the difference between time and temporal duration.
  • Quantum Gravity: Applying solid-state physics to quantum foam and studying anomalous motion of astronomical bodies.

Grants

  • Phase II: Industry University Cooperative Research Center for Metamaterials: National Science Foundation, Period: 02/01/2016-01/31/2021
  • The Center for Advanced Technology in Photonics Applications: New York State, Economic Development Corporation, Period: 07/01/2008-06/30/2015
  • Industry University Cooperative Research Center for Metamaterials: National Science Foundation, Period: 02/01/2011-01/31/2016
  • Development of Modeling and Design Algorithms: Northrop Grumman, Raytheon, Corning, Period: 5/15/2011 - 5/14/2014
  • Scattering Control in Compound Aperture Arrays: Goodrich, Raytheon, Xerox, Period: 5/15/2011 - 5/14/2014
  • Conformal Artificial Magnetic Conductor Backed Antenna Structures: US Army, Period: 8/01/2013 - 7/31/2014
  • Gain Enhancement to Vivaldi Antenna Using Metamaterials: US Army, Period: 8/01/2013 - 7/31/2014
  • Photon Sorting and Multi-Wavelength Detection: Raytheon Company, USAF, Period: 5/15/2013 - 5/14/2014
  • Active Metasurfaces: Phoebus Optoelectronics, Period: 5/15/2013 - 5/14/2014
  • Metasurface Enhanced Solar Blind Ultraviolet Photodetector: Army, Period: 08/01/2013-04/30/2014
  • Project Title: Electro-Optically Guided Radar Imaging: US Army, Period: 08/01/2013-04/30/2014
  • Non Mechanically Moving Solar Directing System for Photovoltaic Modules: US Navy, Period: 08/01/2013-04/30/2014
  • Narrowband Perfect Absorber using Metamaterials: Army Research Office, Period: 6/15/2013- 6/15/2015
  • Hybrid Metamaterials for Solar Biofuel: AFOSR US Air Force, Period: 7/15/10 – 7/14/13
  • Photonic Band Gap Structures for Solar Energy Generation: DARPA, Period: 7/15/11 – 12/31/12
  • Hybrid Metamaterials for Solar: DARPA, Period: 07/15/2010-07/14/2013
  • Measurement of Temperature Dependent Optical Properties of Materials: Phoebus Optoelectronics, USAF, US Army, Period: 5/15/2011 - 5/14/2012
  • Antireflective Conductive Plasmonic Crystal Films for Solar Cells: DARPA and Phoebus Optoelectronics, LLC, Period: 5/15/10 – 09/30/12
  • Polarimetric Multiwavelength Focal Plane Arrays for ACE and CLARREO, NASA, Period: 2/09/09 – 02/09/2012
  • Science and Applications of Metamaterials to Interceptor Sensors: Missile Defense Agency, Period: 2/17/09 – 12/31/12
  • Light-channeling Metamaterials for Polarimetric Sensing: National Science Foundation, Period: 7/01/09 – 03/30/10
  • A Hybrid Metamterial for Solar Methonal, National Science Foundation, Period: 09/01/2010-06/30/2011
  • IUCRC Center for Metamaterials Planning Grant, National Science Foundation, Period: 8/01/09 – 7/31/11
  • Development of Light Controlling Techniques: National Science Foundation , Period: 1/01/07 – 9/30/2012
  • Semiconductor heterostructure quantum wire multiwavelength IR photodetectors for focal plane arrays: US Air Force, Period: 05/23/2005-07/29/2008
  • The Use of Light Channeling and Localization in Micro/Nanofabricated Structures for the Development of High Performance Photodetectors: Phoebus Optoelectronics LLC, Period: 01/25/2006-07/25/200626.
  • Intersubband Photoconduction in CdTe/CdS and CdTe/CdSe Nanowires: U.S. Army, Period: 01/28/2005-10/31/2005
  • Surface plasmon enhanced silicon-on-insulator photodiodes: Cornell Center for Nanoscale Systems in Information Technologies: NSF – Nanoscale Science and Engineering Center, Period: 09/01/2005-08/31/2006
  • Materials and Devices Research and Educational Infrastructure Enhancement: United States Department of Defense, Period: 12/01/2004-11/30/2005

Patents

  • Crouse, David Thomas, and Pavan Kumar Keshavareddy Reddy. "Sub-wavelength structures, devices and methods for light control in material composites." U.S. Patent Application 12/746,897.
  • KODER, Ronald, and David CROUSE. "PATTERNED COMPOSITE LIGHT HARVESTING STRUCTURES AND METHODS OF MAKING AND USING." WIPO Patent No. 2010121189. 22 Oct. 2010.
  • CROUSE, David, Thomas JAMES, and Michael CROUSE. "SEMICONDUCTOR DEVICES COMPRISING ANTIREFLECTIVE CONDUCTIVE LAYERS AND METHODS OF MAKING AND USING." WIPO Patent No. 2010078014. 9 Jul. 2010.
  • CROUSE, David, and Pavan Kumar REDDY. "SUB-WAVELENGTH STRUCTURES, DEVICES AND METHODS FOR LIGHT CONTROL IN MATERIAL COMPOSITES." WIPO Patent No. 2009076395. 19 Jun. 2009.
  • CROUSE, David, Michael CROUSE, and Thomas JAMES. "OPTICAL DEVICE WITH ARRAY OF APERTURES AND METHODS OF MAKING AND USING THE OPTICAL DEVICE." WIPO Patent No. 2010099261. 3 Sep. 2010.
  • Crouse, David. "Method and device for concentrating light in optoelectronic devices using resonant cavity modes." U.S. Patent No. 7,701,025. 20 Apr. 2010.
  • CROUSE, David, and Thomas JAMES. "HORIZONTALLY DISTRUTIBUTED ARRAY OF SOLAR CELLS AND METHODS OF MAKING AND USING." WIPO Patent No. 2010028358. 12 Mar. 2010.
  • CROUSE, David, and Thomas JAMES. "OPTICAL STRUCTURES WITH REDUCED DIFFRACTION AND METHODS OF MAKING AND USING." WIPO Patent No. 2010017400. 12 Feb. 2010.
  • Crouse, David Thomas, and Pavan Kumar Reddy Keshavareddy. "SUB-WAVELENGTH STRUCTURES, DEVICES AND METHODS FOR LIGHT CONTROL IN MATERIAL COMPOSITES." U.S. Patent No. 20,140,332,077. 13 Nov. 2014..
  • CROUSE, David, Thomas JAMES, and Ataul IKRAM. "METHOD OF ELIMINATING AND MONITORING THE ELIMINATION OF ALUMINUM OXIDE AND OTHER MATERIALS AT THE BASE OF PORES IN POROUS ANODIZED ALUMINUM." WIPO Patent No. 2009026592. 27 Feb. 2009.
  • AREND, Mark, and David CROUSE. "HIGH RESPONSIVITY HIGH BANDWIDTH METAL-SEMICONDUCTOR-METAL OPTOELECTRONIC DEVICE." WIPO Patent No. 2005092037. 7 Oct. 2005.
  • Arend, Mark, and David Crouse. "HIGH RESPONSIVITY HIGH BANDWIDTH METAL-SEMICONDUCTOR-METAL OPTOELECTRONIC DEVICE." European Patent No. EP 1735842. 27 Dec. 2006.
  • Arend, Mark, and David Crouse. "High responsivity high bandwidth metal-semiconductor-metal optoelectronic device." U.S. Patent No. 7,423,254. 9 Sep. 2008.
  • Crouse, Michael M., et al. "Enabling nanostructured materials via multilayer thin film precursor and applications to biosensors." U.S. Patent No. 6,869,671. 22 Mar. 2005.
  • CROUSE, David, et al. "NANOSTRUCTURE LIGHT EMITTERS USING PLASMON-PHOTON COUPLING." WIPO Patent No. 2001039285. 1 Jun. 2001.

Publications

Link to the NSF Industry/University Cooperative Research Center for Metamaterials: www.centerformetamaterials.org

Link to the Crouse Laboratory: dcrouse46.wixsite.com/laboratory

  • Schnatz, Peter, et al. "Design of Supercharged Proteins to Impart Allosteric Behavior and their Use in Biosensing." Biophysical Journal 112.3 (2017): 510a.
  • Jung, Young Uk, Igor Bendoym, and David T. Crouse. "Numerical study of near-, mid-, and long-infrared photon trapping in crystalline and amorphous HgCdTe metamaterials." Applied Physics A 122.4 (2016): 1-6.
  • Crouse, David T. "The lattice world, quantum foam and the universe as a metamaterial." Applied Physics A 122.4 (2016): 1-7.
  • Popescu, Ada-Simona, et al. "Anisotropic Zero Index Material: a Method of Reducing the Footprint of Vivaldi Antennas in the UHF Range." Progress In Electromagnetics Research C 65 (2016): 33-43.
  • Rexhepi, Taulant, and David Crouse. "A Study of Composite Substrates for VHF and UHF Artificial Magnetic Conductors and Their Application to a SATCOM Antenna." Progress In Electromagnetics Research C 64 (2016): 1-9.
  • Lansey, Eli, et al. "Measurement of photon sorting at microwave frequencies in a cavity array metasurface." IEEE Transactions on Antennas and Propagation 63.10 (2015): 4521-4524.
  • Jung, Young Uk, et al. "Surface plasmon sorting and engineered dispersion curves using multilayer doped semiconductors." JOSA B 32.5 (2015): 1007-1012.
  • Rexhepi, Taulant, et al. "Low profile UHF/VHF metamaterial backed circularly polarized antenna structure." Progress In Electromagnetics Research C 60 (2015): 11-20.
  • Crouse, D. T., Lansey, E., Mandel, I., & Hooper, I. (2014). Light harvesting with metasurfaces: applications to sensors and energy generation. Applied Physics A, 117(2), 731-737.
  • Mandel, I. M., Bendoym, I., Jung, Y. U., Golovin, A. B., & Crouse, D. T. (2013). Dispersion engineering of surface plasmons. Optics express, 21(26), 31883-31893.
  • Mandel, Isroel M., Andrii B. Golovin, and David T. Crouse. "Fano phase resonances in multilayer metal-dielectric compound gratings." Physical Review A 87.5 (2013): 053847.
  • Mandel, I. M., Golovin, A. B., & Crouse, D. T. (2013). Analytical description of the dispersion relation for phase resonances in compound transmission gratings. Physical Review A, 87(5), 053833.
  • Mandel, I., Gollub, J., Bendoym, I., & Crouse, D. Theory and Design of A Novel Integrated Polarimetric Sensor Utilizing a Light Sorting Metamaterial Grating. Sensors Journal, IEEE 13 (2), 618-625 (2013).
  • Enemuo, A., Nolan, M., Uk Jung, Y., Golovin, A. B., & Crouse, D. T. Extraordinary light circulation and concentration of s-and p-polarized phase resonances. Journal of Applied Physics, 113(1), 014907-014907 (2013).
  • Penkov, B., Bordonaro, G., Golovin, A. B., Bendoym, I., Tennant, D. M., & Crouse, D. T. (2013). Periodic patterning using aerial image modulation with optical lithography. Journal of Micro/Nanolithography, MEMS, and MOEMS,12(3), 033009-033009.
  • Lansey, E., Hooper, I. R., Gollub, J. N., Hibbins, A. P., & Crouse, D. T. Light localization, photon sorting, and enhanced absorption in subwavelength cavity arrays. Optics express, 20(22), 24226-24236 (2012).
  • Mandel, I., Lansey, E., Gollub, J. N., & Crouse, D. T. An effective cavity resonance model for enhanced optical transmission through a periodic array of subwavelength square apertures. In SPIE NanoScience+ Engineering (pp. 845735-845735). International Society for Optics and Photonics (2012).
  • Bendoym, I., Golovin, A. B., & Crouse, D. T. The light filtering and guiding properties of high finesse phase resonant compound gratings. Optics Express, 20(20), 22830-22846 (2012).
  • Lansey, E., Pishbin, N., Gollub, J. N., & Crouse, D. T. Analytical analysis of the resonance response of subwavelength nanoscale cylindrical apertures in metal at near-ultraviolet, optical, and near-infrared frequencies. Journal of the Optical Society of America B: Optical Physics, 29(3), 262-267 (2012).
  • Lansey, E., Mandel, I., Gollub, J., & Crouse, D. A new theoretical model for enhanced optical transmission through thin films. Bulletin of the American Physical Society, 57 (2012).
  • Bendoym, I., Pishbin, N., Lansey, E., & Crouse, D. T. Rapidly optimizing optoelectronic devices using full wave 3d simulation software. Physics and Simulation of Optoelectronic Devices, 19(7933), 793327 (2011).
  • Lansey, E., & Crouse, D. T. Design of photonic metamaterial multi-junction solar cells using rigorous coupled wave analysis. In SPIE Solar Energy+ Technology (pp. 777205-777205). International Society for Optics and Photonics (2010).
  • Crouse, D. Polarization independent lensing and superbeaming in plasmonic crystals and applications to focal plane arrays. In IEEE/LEOS Winter Topicals Meeting Series, 2009 (pp. 50-51). IEEE (2009).
  • Crouse, D., Controlling and measuring the polarization state of light using compound gratings and other plasmonic/photonic crystal structures and applications to polarimetric sensors. In Optical Engineering+ Applications(pp. 70650G-70650G). International Society for Optics and Photonics. (2008).
  • Crouse, M. M., James, T. L., & Crouse, D. Fabrication, characterization of II-VI semiconductor nanowires and applications in infrared focal plane arrays. In Optical Engineering+ Applications (pp. 70950J-70950J). International Society for Optics and Photonics (2008).
  • Crouse, D., Jaquay, E., Maikal, A., & Hibbins, A. P. Light circulation and weaving in periodically patterned structures. Physical Review B, 77(19), 195437 (2008).
  • Crouse, D., Hibbins, A. P., & Lockyear, M. J., Tuning the polarization state of enhanced transmission in gratings. Applied Physics Letters, 92(19), 191105-191105 (2008).
  • Ikram, A. A., Crouse, D. T., & Crouse, M. M., Electrochemical fabrication of cadmium telluride quantum dots using porous anodized aluminum on a silicon substrate. Materials Letters, 61(17), 3666-3668 . (2007).
  • Crouse, D, "X-ray Diffraction and the Discovery of the Structure of DNA. A Tutorial and Historical Account of James Watson and Francis Crick's Use of X-ray Diffraction in Their Discovery of the Double Helix Structure of DNA." Journal of Chemical Education 84, no. 5 (2007): 803.
  • Crouse, D., & Keshavareddy, P., Polarization independent enhanced optical transmission in one-dimensional gratings and device applications. Optics Express, 15(4), 1415-1427 (2007)..
  • Crouse, D., & Crouse, M. (2006). Design and numerical modeling of normal-oriented quantum wire infrared photodetector array. Infrared physics & technology, 48(3), 227-234 (2006).
  • Crouse, D., Phonon modes and electron-phonon interactions in cylindrical quantum wires: Macroscopic and microscopic analyses for device applications. Journal of applied physics, 100(1), 014509-014509 (2006).
  • Crouse, D., Arend, M., Zou, J., & Keshavareddy, P., Numerical modeling of electromagnetic resonance enhanced silicon metal-semiconductor-metal photodetectors. Optics express, 14(6), 2047-2061 (2006).
  • Crouse, D., & Keshavareddy, P. A method for designing electromagnetic resonance enhanced silicon-on-insulator metal–semiconductor–metal photodetectors. Journal of Optics A: Pure and Applied Optics, 8(2), 175 (2006).
  • Crouse, D., Numerical modeling and electromagnetic resonant modes in complex grating structures and optoelectronic device applications. Electron Devices, IEEE Transactions on, 52(11), 2365-2373 (2005).
  • Crouse, D., & Solomon, R., Numerical modeling of surface plasmon enhanced silicon on insulator avalanche photodiodes. Solid-state electronics,49(10), 1697-1701 (2005).
  • Crouse, D., & Keshavareddy, P., Role of optical and surface plasmon modes in enhanced transmission and applications. Optics Express, 13(20), 7760-7771, (2005).
  • Crouse, M. M., Miller, A. E., Crouse, D. T., & Ikram, A. A., Nanoporous alumina template with in situ barrier oxide removal, synthesized from a multilayer thin film precursor. Journal of The Electrochemical Society, 152(10), D167-D172 (2005).
  • Crouse, D., Optoelectronics, Displays, and Imaging-Numerical Modeling and Electromagnetic Resonant Modes in Complex Grating Structures and Optoelectronic Device Applications. IEEE Transactions on Electron Devices,52(11), 2365-2373 (2005).
  • Crouse, M. M., Miller, A. E., Crouse, D. T., & Ikram, A. A., Electrochemical Synthesis and Engineering-Nanoporous Alumina Template with In Situ Barrier Oxide Removal, Synthesized from a Multilayer Thin Film Precursor. Journal of the Electrochemical Society, 152(10), D167 (2005)..
  • Crouse, D. T., & Lo, Y. H. Nonsteady-state surface plasmons in periodically patterned structures. Journal of applied physics, 95(8), 4163-4172 (2004).
  • Sundararajan, S. P., Crouse, D., & Lo, Y. H., Gallium nitride: Method of defect characterization by wet oxidation in an oxalic acid electrolytic cell. Journal of vacuum science & technology b: microelectronics and nanometer structures,20(4), 1339-1341 (2002).
  • Crouse, D., Lo, Y. H., Miller, A. E., & Crouse, M., Self-ordered pore structure of anodized aluminum on silicon and pattern transfer. Applied Physics Letters, 76(1), 49-51 (2000).
  • Crouse, D., Lo, Y. H., Miller, A. E., & Crouse, M., Self-assembled nanostructures using anodized alumina thin films for optoelectronic applications. In LEOS'99. IEEE Lasers and Electro-Optics Society 1999 12th Annual Meeting(Vol. 1, pp. 234-235). IEEE (1999).
  • Crouse, D., Zhu, Z. H., Lo, Y. H., & Hou, H. (1998). Fabrication of photonic devices on Si using pick-and-place multi-wafer technology. In Lasers and Electro-Optics Society Annual Meeting, 1998. LEOS'98. IEEE (Vol. 1, pp. 87-88). IEEE (1998).
  • Zhou, Y. C., Zhu, Z. H., Crouse, D., & Lo, Y. H., Electrical properties of wafer-bonded GaAs/Si heterojunctions. Applied physics letters, 73(16), 2337-2339 (1998).
  • Zhu, Z. H., Zhou, Y. C., Crouse, D., & Lo, Y. H., Pick-and-place multi-wafer bonding for optoelectronic integration. Electronics Letters, 34(12), 1256-1257 (1998).
  • Lo, Y. H., Zhu, Z. H., Zhou, R., Zhang, J., Dagel, D., Srivatsa, L. N., ... & Crouse, D., Compliant substrate technology for heterogeneous integration. Critical reviews of optical science and technology, 56-79 (1998).
  • Chang, J. C. P., Ye, J., Melloch, M. R., Crouse, D. T., & Nolte, D. D., Formation of elemental Ag precipitates in AlGaAs by ion implantation and thermal annealing. Applied physics letters, 71(24), 3501-3503 (1997).
  • Crouse, D., Nolte, D. D., Chang, J. C. P., & Melloch, M. R., Optical absorption by Ag precipitates in AlGaAs. Journal of applied physics, 81(12), 7981-7987 (1997).

Conferences:

  • Crouse, David. "Gravitational Effects of a Crystalline Quantum Foam." Bulletin of the American Physical Society (2017).
  • Nadovich, Christopher T., et al. "Forked Grating Coupler Optical Vortex beam interface for silicon photonics." Photonics North (PN), 2016. IEEE, 2016.
  • Crouse, David T. "Metamaterial based narrow bandwidth angle-of-incidence independent transmission filters for hyperspectral imaging." SPIE Defense+ Security. International Society for Optics and Photonics, 2016.
  • Lepak, Lori A., et al. "Handheld chem/biosensor using extreme conformational changes in designed binding proteins to enhance surface plasmon resonance (SPR)." SPIE Commercial+ Scientific Sensing and Imaging. International Society for Optics and Photonics, 2016.
  • Ali, T., Kreminska, L., Golovin, A. B., & Crouse, D. T. (2014, September). Propagation of optical vortices with fractional topological charge in free space. In SPIE Optical Engineering+ Applications (pp. 91940V-91940V). International Society for Optics and Photonics.
  • Jung, Y. U., Bendoym, I., Golovin, A. B., & Crouse, D. T. (2014, June). Dual-band photon sorting plasmonic MIM metamaterial sensor. In SPIE Defense+ Security (pp. 90702X-90702X). International Society for Optics and Photonics.
  • Rexhepi, T., and D. Crouse. "Ultra-wide band metasurface for low-profile RF antenna applications based on high-Mu low-epsilon composites." Proc. 6th International Conference on Metamaterials, Photonic Crystals and Plasmonics, META’15. Vol. 596. 2015.
  • Ali, T., Popescu, A. S., Bendoym, I., Bikorimana, S., Dorsinville, R., Marchese, L., ... & Crouse, D. T. (2014, May). Dynamic lithography of v-shaped antennas for beam steering applications. In SPIE Sensing Technology+ Applications (pp. 91020A-91020A). International Society for Optics and Photonics.
  • Ali, T., Popescu, A. S., Bendoym, I., Bikorimana, S., Dorsinville, R., Marchese, L., ... & Crouse, D. T. (2014, May). Non-mechanical beam steering with a dynamic lithography of tunable metasurface. In Systems, Applications and Technology Conference (LISAT), 2014 IEEE Long Island (pp. 1-6). IEEE.
  • Jung, Y. U., Liu, M., Bendoym, I., Golovin, A. B., & Crouse, D. T. (2014, May). Wavelength selective surface plasmons enhanced infrared photodetectors. InSystems, Applications and Technology Conference (LISAT), 2014 IEEE Long Island (pp. 1-6). IEEE.
  • Popescu, A. S., Ali, T., Bendoym, I., Bikorimana, S., Dorsinville, R., Marchese, L., ... & Crouse, D. T. (2014, March). Active metasurfaces. In SPIE OPTO (pp. 89850Z-89850Z). International Society for Optics and Photonics.
  • Mandel, I., & Crouse, D. T. (2014, February). Stokes parameter sensor using an integrated cavity array metasurface. In SPIE OPTO (pp. 89941I-89941I). International Society for Optics and Photonics.
  • Jung, Y. U., Bendoym, I., Golovin, A. B., & Crouse, D. T. (2013, September). Circulation and concentration of s-and p-polarized light in two-dimensional compound gratings. In SPIE Optical Engineering+ Applications (pp. 884005-884005). International Society for Optics and Photonics.
  • Popescu, A. S., Penkov, B., Jung, Y. U., Akhmechet, R., Golovin, A. B., & Crouse, D. T. (2013, September). Optical properties of aqueous dispersions of diamond nanoparticles. In SPIE NanoScience+ Engineering (pp. 88161G-88161G). International Society for Optics and Photonics.
  • Ortiz, J. D., Baena, J. D., Delgado, V., Marques, R., Enemuo, A., Gollub, J., ... & Crouse, D. T. (2013, July). Experimental demonstration of the saturation and weakening of the resonant response of the SRR and the CSRR. In Radio Science Meeting (Joint with AP-S Symposium), 2013 USNC-URSI (pp. 130-130). IEEE.
  • Mandel, I., Lansey, E., Gollub, J. N., & Crouse, D. T. (2012, October). An effective cavity resonance model for enhanced optical transmission through a periodic array of subwavelength square apertures. In SPIE NanoScience+ Engineering (pp. 845735-845735). International Society for Optics and Photonics.
  • Mandel, I., Gollub, J. N., Sarantos, C., Pishbin, N., & Crouse, D. T. (2012, February). Full device analysis of novel metamaterial coated PN and MIS solar cells using numerical methods. In SPIE OPTO (pp. 82561O-82561O). International Society for Optics and Photonics.
  • Enemuo, A. N., & Crouse, D. T. (2012, February). Enhancing the transmission of diffracted light in sub-wavelength apertures. In SPIE OPTO (pp. 825524-825524). International Society for Optics and Photonics.
  • Lansey, E., Gollub, J. N., & Crouse, D. T. (2012, February). Dispersion analysis of subwavelength square apertures at optical frequencies. In SPIE OPTO (pp. 82550R-82550R). International Society for Optics and Photonics.
  • Lansey, E., Gollub, J., James, T. L., & Crouse, D. T. (2011, November). A polarization-independent wavelength-tuned metamaterial for solar energy applications. In Optical Nanostructures and Advanced Materials for Photovoltaics. Optical Society of America.
  • Enemuo, A., Crouse, D. T., & Crouse, M. (2011, May). PN junction fabrication of solar cells and integration with metamaterials. In SPIE Optics+ Optoelectronics(pp. 80700W-80700W). International Society for Optics and Photonics.
  • Bendoym, I., Pishbin, N., Lansey, E., & Crouse, D. T. (2011). Rapidly optimizing optoelectronic devices using full wave 3d simulation software. Physics and Simulation of Optoelectronic Devices, 19(7933), 793327.
  • Pishbin, N., Crouse, D., Bendoym, I., & Crouse, M. (2011, January). Broadband Antireflecting Conductive Metamaterial Films. In MRS Proceedings (Vol. 1325, No. 1). Cambridge University Press.
  • Lansey, E., & Crouse, D. T. (2010, August). Design of photonic metamaterial multi-junction solar cells using rigorous coupled wave analysis. In SPIE Solar Energy+ Technology (pp. 777205-777205). International Society for Optics and Photonics.
  • Crouse, D. (2009, January). Polarization independent lensing and superbeaming in plasmonic crystals and applications to focal plane arrays. InIEEE/LEOS Winter Topicals Meeting Series, 2009 (pp. 50-51). IEEE.
  • Crouse, D. (2008, August). Controlling and measuring the polarization state of light using compound gratings and other plasmonic/photonic crystal structures and applications to polarimetric sensors. In Optical Engineering+ Applications(pp. 70650G-70650G). International Society for Optics and Photonics.
  • Crouse, M. M., James, T. L., & Crouse, D. (2008, August). Fabrication, characterization of II-VI semiconductor nanowires and applications in infrared focal plane arrays. In Optical Engineering+ Applications (pp. 70950J-70950J). International Society for Optics and Photonics.
  • Crouse, D. T., Ikram, A. A., Miller, A. E., & Crouse, M. (2005, January). Design and fabrication of novel II-IV semiconductor quantum wire infrared detectors/sensors. In Optics East (pp. 296-305). International Society for Optics and Photonics.
  • Crouse, D. T. (2004, December). Surface plasmon effects in metal-semiconductor-metal photodetectors. In Proc. SPIE (Vol. 5594, p. 45).
  • Crouse, D., Lo, Y. H., Miller, A. E., & Crouse, M. (1999). Self-assembled nanostructures using anodized alumina thin films for optoelectronic applications. In LEOS'99. IEEE Lasers and Electro-Optics Society 1999 12th Annual Meeting(Vol. 1, pp. 234-235). IEEE.
  • Crouse, D., Zhu, Z. H., Lo, Y. H., & Hou, H. (1998, December). Fabrication of photonic devices on Si using pick-and-place multi-wafer technology. In Lasers and Electro-Optics Society Annual Meeting, 1998. LEOS'98. IEEE (Vol. 1, pp. 87-88). IEEE.

Contact

Email: dcrouse@clarkson.edu

Office Phone Number: 315/268-6585

Office Location: 207 CAMP Building

Clarkson Box Number: CU Box 5700

Office Hours

  • Monday: 10:30-12:00
  • Thursday: 10:30-12:00