Publications

Journal Article

1. R. C. White, L. J. Nordin, A. J. Muhowski, D. Wasserman, and S. R. Bank, "Photoluminescence from InSb1-xBix alloys at extended wavelengths on InSb," Applied Physics Letters, vol. 121, no. 19, pp. 191901, Nov 2022.
2. A. J. Muhowski, A. Kamboj, A. F. Briggs, L. J. Nordin, S. R. Bank, and D. Wasserman, "Cascaded InGaSb quantum dot mid-infrared LEDs," Journal of Applied Physics, vol. 131, no. 4, Jan 2022.
3. 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.
4. 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.
5. R. H. El-Jaroudi, K. M. McNicholas, A. F. Briggs, S. D. Sifferman, L. J. Nordin, and S. R. Bank, "Room-temperature photoluminescence and electroluminescence of 1. 3-\&microm-range BGaInAs quantum wells on GaAs substrates," Applied Physics Letters, vol. 117, pp. 021102, Jul 2020.
6. A. F. Briggs, L. J. Nordin, A. J. Muhowski, P. Petluru, D. Silva, D. Wasserman, and S. R. Bank, "Mid-infrared electroluminescence from type-II In(Ga)Sb quantum dots," Applied Physics Letters, vol. 116, pp. 061103, Feb 2020.
7. 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.
8. Z. Dong, R. K. Vinnakota, A. F. Briggs, L. J. Nordin, S. R. Bank, D. A. Genov, and D. Wasserman, "Electrical modulation of degenerate semiconductor plasmonic interfaces," Journal of Applied Physics, vol. 126, no. 4, pp. 043101, Jul 2019.
9. 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.
10. K. Volz, V. Gambin, W. Ha, M. A. Wistey, H. B. Yuen, S. R. Bank, and J. S. Harris, "The role of Sb in the MBE growth of (GaIn)(NAsSb)," J. Cryst. Growth, vol. 251, no. 1-4, pp. 360-366, Apr 2003.
11. 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.
12. W. Ha, V. Gambin, M. A. Wistey, S. R. Bank, S. Kim, and J. S. Harris, "Multiple-quantum-well GaInNAs-GaNAs ridge-waveguide laser diodes operating out to 1. 4 mu;m," PTL, vol. 14, no. 5, pp. 591-593, May 2002.
13. W. Ha, V. Gambin, M. A. Wistey, S. R. Bank, H. B. Yuen, S. Kim, and J. S. Harris, "Long wavelength GaInNAsSb/GaNAsSb multiple quantum well lasers," Electron. Lett., vol. 38, no. 6, pp. 277-278, Mar 2002.