Publications

Klem, John F.; Kim, Jin K.; Pickrell, Gregory P.; Tauke-Pedretti, Anna; Wood, Michael G.; Looker, Quinn M.; Padilla, Eduardo A.; Vizkelethy, Gyorgy V.; Bielejec, Edward S.; Webster, Preston T.

Abstract not provided.

Wood, Michael G.

Abstract not provided.

Wood, Michael G.; Hains, Christopher H.; Finnegan, Patrick S.; Stephenson, Chad A.; Klem, John F.; Looker, Quinn M.

Abstract not provided.

Soudachanh, Amy L.; Grine, Alejandro J.; Serkland, Darwin K.; Wood, Michael G.; Hains, Christopher H.

Abstract not provided.

Optics InfoBase Conference Papers

Wood, Michael G.; Reines, Isak C.; Luk, Ting S.; Serkland, Darwin K.; Campione, Salvatore

We numerically analyze the role of carrier mobility in transparent conducting oxides in epsilon-near-zero phase modulators. High-mobility materials such as cadmium oxide enable compact photonic phase modulators with a modulation figure of merit >29 º/dB.

Looker, Quinn M.; Wood, Michael G.

Abstract not provided.

Conference Digest - IEEE International Semiconductor Laser Conference

Serkland, Darwin K.; Morin, Theodore J.; Grine, Alejandro J.; Peake, Gregory M.; Kendall, Wesley Y.; Wood, Michael G.; Hains, Christopher H.; So, Haley M.; Soudachanh, Amy L.; Geib, Kent M.

We demonstrate an all-semiconductor coupled-cavity VCSEL designed to achieve narrow linewidth at 850 nm. A resonant AlGaAs cavity of thickness 1,937 nm (8 wavelengths) is situated below the 3-quantum-well active region and results in an effective coupled-cavity length of 36 wavelengths.

Soudachanh, Amy L.; Grine, Alejandro J.; Serkland, Darwin K.; Wood, Michael G.; Hains, Christopher H.; Hollowell, Andrew E.; Koch, Lawrence K.; Musick, Katherine M.; Ruiz, Lidia R.; Bischoff, Jay B.

Abstract not provided.

Serkland, Darwin K.; Morin, Theodore J.; Grine, Alejandro J.; Peake, Gregory M.; Kendall, Wesley Y.; Wood, Michael G.; Hains, Christopher H.; So, Haley M.; Soudachanh, Amy L.; Geib, Kent M.

Abstract not provided.

Campione, Salvatore; Wood, Michael G.; Serkland, Darwin K.; Luk, Ting S.; Reines, Isak C.

Abstract not provided.

Optics Express

Reines, Isak C.; Wood, Michael G.; Luk, Ting S.; Serkland, Darwin K.; Campione, Salvatore

In this paper, we analyze a compact silicon photonic phase modulator at 1.55 μm using epsilon-near-zero transparent conducting oxide (TCO) films. The operating principle of the non-resonant phase modulator is field-effect carrier density modulation in a thin TCO film deposited on top of a passive silicon waveguide with a CMOS-compatible fabrication process. We compare phase modulator performance using both indium oxide (In2O3) and cadmium oxide (CdO) TCO materials. Our findings show that practical phase modulation can be achieved only when using high-mobility (i.e. low-loss) epsilon-near-zero materials such as CdO. The CdO-based phase modulator has a figure of merit of 17.1°/dB in a compact 5 μm length. This figure of merit can be increased further through the proper selection of high-mobility TCOs, opening a path for device miniaturization and increased phase shifts.

Peters, D.W.; Kim, Jin K.; Tauke-Pedretti, Anna; Davids, Paul D.; Goldflam, Michael G.; Sinclair, Michael B.; Wendt, J.R.; Warne, Larry K.; Campione, Salvatore; Pung, Aaron J.; Wood, Michael G.; Anderson, Evan M.; Finnegan, Patrick S.; Alford, Charles A.; Weiner, Phillip H.; Fortune, Torben R.; Coon, Wesley T.; Hawkins, Samuel D.

Abstract not provided.

Grine, Alejandro J.; Grine, Alejandro J.; Serkland, Darwin K.; Serkland, Darwin K.; Wood, Michael G.; Wood, Michael G.; Soudachanh, Amy L.; Soudachanh, Amy L.; Hollowell, Andrew E.; Hollowell, Andrew E.; Koch, Lawrence K.; Koch, Lawrence K.; Hains, Christopher H.; Hains, Christopher H.; Siddiqui, Aleem M.; Siddiqui, Aleem M.; Eichenfield, Matthew S.; Eichenfield, Matthew S.; Dagel, Daryl D.; Dagel, Daryl D.; Grossetete, Grant G.; Grossetete, Grant G.; Matins, Benjamin M.; Matins, Benjamin M.

Abstract not provided.

Campione, Salvatore; Wood, Michael G.; Parameswaran, S.P.; Luk, Ting S.; Serkland, Darwin K.; Keeler, Gordon A.

Abstract not provided.

Soudachanh, Amy L.; Wood, Michael G.; Serkland, Darwin K.; Hains, Christopher H.; Grine, Alejandro J.

Abstract not provided.

Peters, D.W.; Kim, Jin K.; Tauke-Pedretti, Anna; Davids, Paul D.; Goldflam, Michael G.; Sinclair, Michael B.; Wendt, J.R.; Warne, Larry K.; Campione, Salvatore; Pung, Aaron J.; Wood, Michael G.; Anderson, Evan M.; Finnegan, Patrick S.; Alford, Charles A.; Weiner, Phillip H.; Fortune, Torben R.; Coon, Wesley T.; Hawkins, Samuel D.

Abstract not provided.

Optica

Wood, Michael G.; Campione, Salvatore; Parameswaran, S.; Luk, Ting S.; Wendt, J.R.; Serkland, Darwin K.; Keeler, Gordon A.

Optical communication systems increasingly require electrooptical modulators that deliver high modulation speeds across a large optical bandwidth with a small device footprint and a CMOS-compatible fabrication process. Although silicon photonic modulators based on transparent conducting oxides (TCOs) have shown promise for delivering on these requirements, modulation speeds to date have been limited. Here, we describe the design, fabrication, and performance of a fast, compact electroabsorption modulator based on TCOs. The modulator works by using bias voltage to increase the carrier density in the conducting oxide, which changes the permittivity and hence optical attenuation by almost 10 dB. Under bias, light is tightly confined to the conducting oxide layer through nonresonant epsilon-near-zero (ENZ) effects, which enable modulation over a broad range of wavelengths in the telecommunications band. Our approach features simple integration with passive silicon waveguides, the use of stable inorganic materials, and the ability to modulate both transverse electric and magnetic polarizations with the same device design. Using a 4-μm-long modulator and a drive voltage of 2 Vpp, we demonstrate digital modulation at rates of 2.5 Gb/s. We report broadband operation with a 6.5 dB extinction ratio across the 1530–1590 nm band and a 10 dB insertion loss. This work verifies that high-speed ENZ devices can be created using conducting oxide materials and paves the way for additional technology development that could have a broad impact on future optical communications systems.

Serkland, Darwin K.; So, Haley M.; Peake, Gregory M.; Wood, Michael G.; Grine, Alejandro J.; Hains, Christopher H.; Geib, Kent M.; Keeler, Gordon A.

Abstract not provided.

Campione, Salvatore; Wood, Michael G.; Parameswaran, Sivasubramanian P.; Luk, Ting S.; Wendt, J.R.; Serkland, Darwin K.; Keeler, Gordon A.

Abstract not provided.

Proceedings of SPIE - The International Society for Optical Engineering

Serkland, Darwin K.; So, Haley M.; Peake, Gregory M.; Wood, Michael G.; Grine, Alejandro J.; Hains, Christopher H.; Geib, Kent M.; Keeler, Gordon A.

We report on mode selection and tuning properties of vertical-external-cavity surface-emitting lasers (VECSELs) containing coupled semiconductor and external cavities of total length less than 1 mm. Our goal is to create narrowlinewidth (<1MHz) single-frequency VECSELs that operate near 850 nm on a single longitudinal cavity resonance and tune versus temperature without mode hops. We have designed, fabricated, and measured VECSELs with external-cavity lengths ranging from 25 to 800 μm. We compare simulated and measured coupled-cavity mode frequencies and discuss criteria for single mode selection.

Looker, Quinn M.; Wood, Michael G.; Serkland, Darwin K.; Keeler, Gordon A.; Kim, Jin K.

Abstract not provided.

Soudachanh, Amy L.; Grine, Alejandro J.; Wood, Michael G.; Serkland, Darwin K.; Hains, Christopher H.

Abstract not provided.

IEEE Photonics Journal

Campione, Salvatore; Wood, Michael G.; Serkland, Darwin K.; Parameswaran, Sivasubramanian P.; Ihlefeld, Jon I.; Luk, Ting S.; Wendt, J.R.; Geib, Kent M.; Keeler, Gordon A.

Epsilon-near-zero materials provide a new path for tailoring light-matter interactions at the nanoscale. In this paper, we analyze a compact electroabsorption modulator based on epsilon-near-zero confinement in transparent conducting oxide films. The nonresonant modulator operates through field-effect carrier density tuning. We compare the performance of modulators composed of two different conducting oxides, namely, indium oxide (In2O3) and cadmium oxide (CdO), and show that better modulation performance is achieved when using high-mobility (i.e., low loss) epsilon-near-zero materials such as CdO. In particular, we show that nonresonant electroabsorption modulators with submicron lengths and greater than 5 dB extinction ratios may be achieved through the proper selection of high-mobility transparent conducting oxides, opening a path for device miniaturization and increased modulation depth.

Soudachanh, Amy L.; Grine, Alejandro J.; Serkland, Darwin K.; Parameswaran, Sivasubramanian P.; Wood, Michael G.

Abstract not provided.

Wood, Michael G.; Campione, Salvatore; Serkland, Darwin K.; Parameswaran, Sivasubramanian P.; Ihlefeld, Jon I.; Luk, Ting S.; Wendt, J.R.; Geib, Kent M.; Keeler, Gordon A.

Abstract not provided.