Publications

Madaras, S.E., Gehl, M., Starbuck, A.L., Trotter, D., Pomerene, A., Friedmann, T.A., Boady, M.S., Martinez, W.M., Otterstrom, N.T., Chow, W.W., Skogen, E.J., & Skogen, E.J. (2024). 104Hz Linewidth, Self-injection Locked, Chip Scale NIR Laser [Conference Presentation]. 10.2172/2565143

Starbuck, A.L., Trotter, D.C., Dallo, C.M., Martinez, W.M., Chow, W.W., Skogen, E.J., Gehl, M., & Gehl, M. (2023). NIR Ring Mirror Laser Utilizing Low Loss Silicon Nitride Photonic Platform [Conference Poster]. CLEO: Fundamental Science, CLEO:FS 2023. 10.2172/2431309

Chow, W.W. (2022). Analysis of the Spontaneous Emission Limited Linewidth of an Integrated III–V/SiN Laser. Laser and Photonics Reviews, 16(6). https://doi.org/10.1002/lpor.202100620

Lee, J., Orozco, A.S., Kindel, W., Karl, N., Sterk, J.D., Chow, W.W., Jau, Y., Biedermann, G., Gehl, M., & Gehl, M. (2021). Guided Cold-Atom Inertial Sensor Platforms with Membrane Integrated Photonics and Nanofibers [Conference Presentation]. 10.2172/1869386

Chow, W.W. (2021). Influence of quantum-confined device fabrication on semiconductor-laser theory. Journal of Vacuum Science and Technology A: Vacuum, Surfaces and Films, 39(3). 10.1116/6.0000767

Chow, W.W., Zhang, Z., Norman, J., Bowers, ., Duan, ., Grillot, F., & Grillot, F. (2021). p-doping in quantum dot lasers [Conference Paper]. https://www.osti.gov/biblio/1876719

Chow, W.W. (2020). Frequency-domain modeling of semiconductor mode-lock lasers [Conference Poster]. https://www.osti.gov/biblio/1821575

Grillot, F., Norman, J.C., Duan, J., Zhang, Z., Dong, B., Huang, H., Chow, W.W., Bowers, J.E., & Bowers, J.E. (2020). Physics and applications of quantum dot lasers for silicon photonics. Nanophotonics, 9(6), pp. 1271-1286. https://doi.org/10.1515/nanoph-2019-0570

Orozco, A.S., Kindel, W., Chow, W.W., Sterk, J.D., Jau, Y., Martin, M.J., Biedermann, G., Lee, J., & Lee, J. (2020). Nanofiber testbed for guided atom interferometry in high dynamic environments [Conference Poster]. https://www.osti.gov/biblio/1786279

Orozco, A.S., Kindel, W., Sterk, J.D., Chow, W.W., Biedermann, G., Lee, J., & Lee, J. (2020). Toward a Nanofiber Atomic Guide For Atom Interferometry [Conference Poster]. https://www.osti.gov/biblio/1776676

Chow, W.W., Zhang, Z., Norman, J.C., Liu, S., Bowers, J.E., & Bowers, J.E. (2020). On quantum-dot lasing at gain peak with linewidth enhancement factor α H = 0. APL Photonics, 5(2). 10.1063/1.5133075

Chow, W.W. (2019). Linewidth Enhancement in Quantum Dot Lasers (invited) [Conference Poster]. https://www.osti.gov/biblio/1642871

Moore, C.H., Chow, W.W., Fierro, A.S., & Fierro, A.S. (2018). Particle-In-Cell Direct-Simulation-Monte-Carlo Simulations of Optically Triggered Nanosecond Electrical Switches [Conference Poster]. https://www.osti.gov/biblio/1592534

Bielejec, E.S., Chow, W.W., Nogan, J., & Nogan, J. (2018). Electro-optical Control over SiV Center Emission in Diamond. 10.2172/1488646

Chow, W.W. (2018). Frequency Comb Generation from Spontaneous Mode Locking in a Semiconductor Laser [Conference Poster]. https://www.osti.gov/biblio/1581926

Moore, C.H., Chow, W.W., Fierro, A.S., & Fierro, A.S. (2018). Finite Element Particle-In-Cell Direct Simulation Monte Carlo Simulations of Optically Triggered Nanosecond Electrical Switches [Conference Poster]. https://www.osti.gov/biblio/1529477

Fierro, A.S., Moore, C.H., Chow, W.W., Hopkins, M.M., & Hopkins, M.M. (2018). Study of a low-pressure high voltage switch triggered by laser-surface interaction [Conference Poster]. https://www.osti.gov/biblio/1515755

Urayama, J., Chow, W.W., Yee, B.T., Gallegos, R.J., Bigman, V.H., Zutavern, F.J., & Zutavern, F.J. (2018). Characterization and modeling of THz radiation from USPL-surface interactions [Conference Poster]. https://www.osti.gov/biblio/1498449

Fierro, A.S., Moore, C.H., Chow, W.W., Biedermann, L.B., Hopkins, M.M., & Hopkins, M.M. (2017). Simulation of a laser triggered vacuum switch [Conference Poster]. https://www.osti.gov/biblio/1481355

Gies, C., Lorke, M., Jahnke, F., Chow, W.W., & Chow, W.W. (2017). Book Chapter: Quantum-Dot Nanolasers. https://www.osti.gov/biblio/1480600

Chow, W.W., Kreinberg, S., Wolters, J., Schneider, C., Gies, C., Jahnke, F., Hofling, S., Kamp, M., Reitzenstein, S., & Reitzenstein, S. (2017). InGaAs quantum-dot micropillar emitters: From spontaneous emission and superradiance to lasing [Conference Poster]. International Conference on Transparent Optical Networks. 10.1109/ICTON.2017.8024774

Kreinberg, S., Chow, W.W., Wolters, J., Schneider, C., Gies, C., Jahnke, F., Hofling, S., Kamp, M., Reitzenstein, S., & Reitzenstein, S. (2017). Emission from quantum-dot high-ß microcavities: Transition from spontaneous emission to lasing and the effects of superradiant emitter coupling. Light: Science and Applications, 6(8). 10.1038/lsa.2017.30

Chow, W.W., Moore, C.H., Biedermann, L.B., Hopkins, M.M., Dagel, D., Cartwright, K., & Cartwright, K. (2017). Carrier dynamics model for laser-solid interactions. 10.2172/1596194

Chow, W.W. (2017). Quantum-Dot Nanolasers (invited) [Conference Poster]. https://www.osti.gov/biblio/1464096

Li, C., Wright, J.B., Liu, S., Lu, P., Figiel, J.J., Leung, B., Chow, W.W., Brener, I., Koleske, D., Luk, T.S., Feezell, D.F., Brueck, S.R.J., Wang, G.T., & Wang, G.T. (2017). Nonpolar InGaN/GaN Core-Shell Single Nanowire Lasers. Nano Letters, 17(2), pp. 1049-1055. 10.1021/acs.nanolett.6b04483