Publications

Displaying 60 publications
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Journal Article

  1. A. M. Skipper, P. Petluru, D. J. Ironside, A. M. García, A. J. Muhowski, D. Wasserman, and S. R. Bank, "All-epitaxial, laterally structured plasmonic materials," Applied Physics Letters, vol. 120, no. 16, pp. 161103, Dec 2022. Digital object identifier
  2. L. J. Nordin, A. Kamboj, E. Simmons, P. Petluru, A. J. Muhowski, A. F. Briggs, S. R. Bank, V. A. Podolskiy, and D. Wasserman, "Active plasmonic optoelectronics," Active Photonic Platforms XIII, Virtual, Aug 2021.
  3. D. J. Ironside, A. M. Skipper, A. M. García, and S. R. Bank, "Review of lateral epitaxial overgrowth of buried dielectric structures for electronics and photonics," Progress in Quantum Electronics, pp. 100316, Dec 2021. Digital object identifier
  4. K. Li, E. Simmons, A. F. Briggs, S. R. Bank, D. Wasserman, V. A. Podolskiy, and E. E. Narimanov, "Ballistic Metamaterials," Optica, vol. 7, no. 12, pp. 1773-1780, Dec 2020. Digital object identifier
  5. A. F. Briggs, L. J. Nordin, A. J. Muhowski, E. Simmons, P. Dhingra, M. L. Lee, V. A. Podolskiy, D. Wasserman, and S. R. Bank, "Enhanced room temperature infrared LEDs using monolithically integrated plasmonic materials," Optica, vol. 7, no. 10, pp. 1355-1358, Oct 2020. Digital object identifier
  6. L. J. Nordin, K. Li, A. F. Briggs, E. Simmons, S. R. Bank, V. A. Podolskiy, and D. Wasserman, "Enhanced emission from ultra-thin long wavelength infrared superlattices on epitaxial plasmonic materials," Applied Physics Letters, vol. 116, pp. 021102, Jan 2020. Digital object identifier
  7. S. R. Bank, H. P. Bae, L. L. Goddard, H. B. Yuen, M. A. Wistey, R. Kudrawiec, and J. S. Harris, "Recent Progress on 1. 55-\µm Dilute-Nitride Lasers," IEEE J. Quantum Electron., vol. 43, no. 9, pp. 773-785, Sep 2007. Digital object identifier
  8. J. S. Harris, R. Kudrawiec, H. B. Yuen, S. R. Bank, H. P. Bae, M. A. Wistey, D. B. Jackrel, E. R. Pickett, T. Sarmiento, L. L. Goddard, V. Lordi, and T. Gugov, "Development of GaInNAsSb alloys: Growth, band structure, optical properties and applications," Physica Status Solidi (b), vol. 244, no. 8, pp. 2707-2729, Jul 2007. Digital object identifier
  9. R. Kudrawiec, S. R. Bank, H. B. Yuen, H. P. Bae, M. A. Wistey, L. L. Goddard, J. S. Harris, M. Gladysiewicz, M. Motyka, and J. Misiewicz, "Conduction band offset for Ga0. 62In0. 38NxAs0. 991 - xSb0. 009/GaNyAs1 - y/GaAs systems with the ground state transition at 1. 5-1. 65 \µm," APL, vol. 90, no. 13, pp. 131905, Mar 2007. Digital object identifier
  10. M. A. Wistey, S. R. Bank, H. P. Bae, H. B. Yuen, E. R. Pickett, L. L. Goddard, and J. S. Harris, "GaInNAsSb/GaAs vertical cavity surface emitting lasers at 1534 nm," Electron. Lett., vol. 42, no. 5, pp. 282-283, Mar 2006. Digital object identifier
  11. S. R. Bank, H. P. Bae, H. B. Yuen, M. A. Wistey, L. L. Goddard, and J. S. Harris, "Room-temperature continuous-wave 1. 55 \µm GaInNAsSb laser on GaAs," Electron. Lett., vol. 42, no. 3, pp. 156-157, Feb 2006. Digital object identifier
  12. S. R. Bank, L. L. Goddard, M. A. Wistey, H. B. Yuen, and J. S. Harris, "On the temperature sensitivity of 1. 5-\µm GaInNAsSb lasers," IEEE J. Sel. Topics Quantum Electron., vol. 11, no. 5, pp. 1089-1098, Sep 2005. Digital object identifier
  13. S. R. Bank, M. A. Wistey, H. B. Yuen, L. L. Goddard, H. P. Bae, and J. S. Harris, "Molecular-beam epitaxy growth of low-threshold cw GaInNAsSb lasers at 1. 5 \µm," J. Vac. Sci. Technol. B, vol. 23, no. 3, pp. 1337-1340, Jun 2005. Digital object identifier
  14. M. A. Wistey, S. R. Bank, H. B. Yuen, L. L. Goddard, T. Gugov, and J. S. Harris, "Protecting wafer surface during plasma ignition using an arsenic cap," J. Vac. Sci. Technol. B, vol. 23, no. 3, pp. 1324-1327, May 2005. Digital object identifier
  15. L. L. Goddard, S. R. Bank, M. A. Wistey, H. B. Yuen, and J. S. Harris, "High performance GaInNAsSb/GaAs lasers at 1. 5 \µm," Proc. SPIE, vol. 2, pp. 2-5, Apr 2005. Digital object identifier
  16. L. L. Goddard, S. R. Bank, M. A. Wistey, H. B. Yuen, Z. Rao, and J. S. Harris, "Recombination, gain, band structure, efficiency, and reliability of 1. 5-\µm GaInNAsSb/GaAs lasers," J. Appl. Phys., vol. 97, no. 8, pp. 083101, Apr 2005. Digital object identifier
  17. D. Gollub, M. Kamp, A. Forchel, J. Seufert, S. R. Bank, M. A. Wistey, H. B. Yuen, L. L. Goddard, and J. S. Harris, "Continuous-wave operation of GaInNAsSb distributed feedback lasers at 1. 5 \µm," Electron. Lett., vol. 40, no. 23, pp. 1487-1488, Nov 2004. Digital object identifier
  18. S. R. Bank, M. A. Wistey, L. L. Goddard, H. B. Yuen, H. P. Bae, and J. S. Harris, "High-performance 1. 5 \µm GaInNAsSb lasers grown on GaAs," Electron. Lett., vol. 40, no. 19, pp. 1186-1187, Sep 2004. Digital object identifier
  19. S. R. Bank, M. A. Wistey, L. L. Goddard, H. B. Yuen, V. Lordi, and J. S. Harris, "Low-threshold continuous-wave 1. 5-\µm GaInNAsSb lasers grown on GaAs," IEEE J. Quantum Electron., vol. 40, no. 6, pp. 656-664, Jun 2004. Digital object identifier
  20. M. A. Wistey, S. R. Bank, H. B. Yuen, L. L. Goddard, and J. S. Harris, "GaInNAs(Sb) vertical-cavity surface-emitting lasers at 1. 460 \µm," J. Vac. Sci. Technol. B, vol. 22, no. 3, pp. 1562-1564, May 2004. Digital object identifier
  21. M. A. Wistey, S. R. Bank, H. B. Yuen, L. L. Goddard, and J. S. Harris, "Monolithic, GaInNAsSb VCSELs at 1. 46 \µm on GaAs by MBE," Electron. Lett., vol. 39, no. 25, pp. 1822-1823, Dec 2003. Digital object identifier
  22. S. R. Bank, M. A. Wistey, H. B. Yuen, L. L. Goddard, W. Ha, and J. S. Harris, "Low-threshold CW GaInNAsSb/GaAs laser at 1. 49 \µm," Electron. Lett., vol. 39, no. 20, pp. 1445-1446, Oct 2003. Digital object identifier
  23. S. R. Bank, W. Ha, V. Gambin, M. A. Wistey, H. B. Yuen, L. L. Goddard, S. Kim, and J. S. Harris, "1. 5 \µm GaInNAs(Sb) lasers grown on GaAs by MBE," J. Cryst. Growth, vol. 251, no. 1-4, pp. 367-371, Apr 2003. Digital object identifier

Conference Paper

  1. A. M. García, B. D. Aguilar, W. J. Doyle, Y. Wang, D. J. Ironside, A. M. Skipper, M. K. Bergthold, M. L. Lee, D. Wasserman, and S. R. Bank, "Molecular Beam Epitaxy Selective Area Regrowth of High Aspect Ratio Microstructures for Mid-Infrared Optoelectronics," 66th Electronic Materials Conf. (EMC), College Park, Maryland, Jun 2024.
  2. M. C. Cassidy, J. Duncan, A. M. García, W. J. Doyle, D. Wasserman, and S. R. Bank, "Selective Area Regrowth for Chipscale Trapped Atom/Ion Quantum Systems," 66th Electronic Materials Conf. (EMC), College Park, Maryland, Jun 2024.
  3. B. D. Aguilar, A. M. García, A. M. Skipper, D. J. Ironside, and S. R. Bank, "Effects of Molecular Beam Epitaxy Selective Area Growth Techniques on III-V Optical Quality," 66th Electronic Materials Conf. (EMC), College Park, Maryland, Jun 2024.
  4. A. M. García, A. M. Skipper, M. K. Bergthold, and S. R. Bank, "SiO2 Surface Planarization for Selective Area Regrowth of High Aspect Ratio Microstructures," 37th North American Molecular Beam Epitaxy Conf. (NAMBE), Madison, WI, Sep 2023.
  5. A. M. García, A. M. Skipper, M. K. Bergthold, and S. R. Bank, "SiO2 Surface Planarization for Molecular Beam Epitaxy Selective Area Regrowth of High Aspect Ratio Microstructures," 65th Electronic Materials Conf. (EMC), Santa Barbara, CA, Jun 2023.
  6. A. M. García, A. M. Skipper, D. J. Ironside, and S. R. Bank, "Feature-Independent Molecular Beam Epitaxy (MBE) Selective Area Regrowth Towards Embedding High Aspect Ratio Microstructures," 36th North American Molecular Beam Epitaxy Conf. (NAMBE), Rehoboth Beach, DE, Sep 2022.
  7. A. M. García, A. M. Skipper, D. J. Ironside, and S. R. Bank, "Molecular Beam Epitaxy Selective Area Regrowth of High Aspect Ratio Microstructures," 64th Electronic Materials Conf. (EMC), Columbus, OH, Jun 2022.
  8. A. M. Skipper, A. H. Jones, M. K. Bergthold, A. J. Muhowski, A. M. García, D. J. Ironside, D. Wasserman, J. C. Campbell, and S. R. Bank, "Selective Area Epitaxy by MBE for Self-Aligned III-V Devices," 64th Electronic Materials Conf. (EMC), Columbus, OH, Jun 2022.
  9. S. R. Bank, A. F. Briggs, L. J. Nordin, A. J. Muhowski, E. Simmons, P. Dhingra, M. L. Lee, V. A. Podolskiy, and D. Wasserman, "Enhancing mid-IR LED performance with monolithically-integrated epitaxial plasmonics," IEEE Summer Topicals Conference (SUM), Virtual, Jul 2021.
  10. A. M. Skipper, A. M. García, D. J. Ironside, D. Wasserman, and S. R. Bank, "Selective Area Doping and Lateral Overgrowth by Solid-Source Molecular Beam Epitaxy," 63nd Electronic Materials Conf. (EMC), Virtual, Jun 2021.
  11. A. F. Briggs, L. J. Nordin, A. J. Muhowski, E. Simmons, P. Dhingra, M. L. Lee, V. A. Podolskiy, D. Wasserman, and S. R. Bank, "Enhanced double heterostructure infrared LEDs using monolithically integrated plasmonic materials," 63nd Electronic Materials Conf. (EMC), Virtual, Jun 2021.
  12. A. M. García, A. M. Skipper, D. J. Ironside, and S. R. Bank, "Experimentally-Calibrated Modeling of Molecular Beam Epitaxy Selective Area Regrowth," 63nd Electronic Materials Conf. (EMC), Virtual, Jun 2021.
  13. E. Simmons, L. J. Nordin, K. Li, A. F. Briggs, S. R. Bank, D. Wasserman, and V. A. Podolskiy, "Enhanced emission from ultra-thin long wavelength infrared superlattices on epitaxial plasmonic metamaterials," International Society for Optics and Photonics (SPIE) Nanoscience and Engineering, Aug 2020.
  14. L. J. Nordin, A. F. Briggs, E. Simmons, A. J. Muhowski, S. R. Bank, V. A. Podolskiy, and D. Wasserman, "Monolithic Semiconductor Plasmonic Devices," Novel Optical Materials and Applications (NOMA), Washington, DC, Jul 2020.
  15. K. Li, E. Simmons, A. F. Briggs, J. Xu, Y. Cheng, R. T. Chen, S. R. Bank, V. A. Podolskiy, and D. Wasserman, "Hyperbolic Metamaterial Photonic Funnels," Conference on Lasers and Electro-Optics (CLEO), Washington, DC, Jun 2020.
  16. A. M. García, A. M. Skipper, D. J. Ironside, and S. R. Bank, "Optimization of All-MBE Selective Area Epitaxial Overgrowth Method," 62nd Electronic Materials Conf. (EMC), Columbus, OH, Jun 2020.
  17. A. M. Skipper, P. Petluru, A. M. García, D. J. Ironside, A. J. Muhowski, D. Wasserman, and S. R. Bank, "Mid-Infrared Plasmonic Corrugations," 62nd Electronic Materials Conf. (EMC), Columbus, OH, Jun 2020.
  18. E. Simmons, L. J. Nordin, K. Li, A. F. Briggs, S. R. Bank, D. Wasserman, and V. A. Podolskiy, "Enhanced Emission from Ultra-Thin Long Wavelength Infrared Superlattices on Epitaxial Plasmonic Materials," Conference on Lasers and Electro-Optics (CLEO), Washington, DC, Jun 2020.
  19. E. Simmons, K. Li, A. F. Briggs, S. R. Bank, D. Wasserman, E. E. Narimanov, and V. A. Podolskiy, "Quantum to Classical Transitions in Multilayer Plasmonic Metamaterials," Conf. on Lasers and Electro Optics (CLEO), San Jose, CA, May 2019.
  20. E. Simmons, K. Li, A. F. Briggs, S. R. Bank, D. Wasserman, E. E. Narimanov, and V. A. Podolskiy, "Quantum to Classical Transitions in Multilayer Plasmonic Metamaterials," American Physical Society March Meeting (APS), Boston, MA, Mar 2019.
  21. S. R. Bank, H. P. Bae, L. L. Goddard, H. B. Yuen, M. A. Wistey, and J. S. Harris, "Very Low-Threshold 1. 55-\µm Dilute-Nitride Lasers," 64th Device Research Conf. (DRC), Jun 2006.
  22. S. R. Bank, H. P. Bae, H. B. Yuen, M. A. Wistey, L. L. Goddard, J. S. Harris, R. Kudrawiec, M. Gladysiewicz, M. Motyka, and J. Misiewicz, "Low-Threshold Continuous-Wave 1. 55-\µm GaInNAsSb lasers," Conf. on Lasers and Electro Optics (CLEO), Long Beach, CA, May 2006.
  23. S. R. Bank, H. P. Bae, H. B. Yuen, L. L. Goddard, M. A. Wistey, T. Sarmiento, and J. S. Harris, "Low-Threshold CW 1. 55-\µm GaAs-Based Lasers," Optical Fiber Communication Conf. (OFC), Anaheim, CA, Mar 2006.
  24. L. L. Goddard, S. R. Bank, M. A. Wistey, H. B. Yuen, H. P. Bae, and J. S. Harris, "Differential Gain and Nonlinear Gain Compression of GaInNAsSb/GaAs Lasers at 1. 5 \µm," Conf. on Lasers and ElectroOptics (CLEO), Baltimore, MD, May 2005.
  25. S. R. Bank, M. A. Wistey, L. L. Goddard, H. B. Yuen, H. P. Bae, and J. S. Harris, "1. 55 \µm GaInNAsSb Lasers on GaAs," Conf. on Lasers and Electro-Optics (CLEO), Baltimore, MD, May 2005.
  26. S. R. Bank, M. A. Wistey, H. B. Yuen, H. P. Bae, L. L. Goddard, and J. S. Harris, "Defect Modification in GaInNAsSb Growth with Insertion of GaAs Prelayers," Materials Research Symposium (MRS), San Francisco, CA, Apr 2005.
  27. L. L. Goddard, S. R. Bank, M. A. Wistey, H. B. Yuen, and J. S. Harris, "High performance GaInNAsSb/GaAs lasers at 1. 5 \µm," SPIE Photonics West, San Jose, CA, Jan 2005.