Zobrazeno 1 - 4
of 4
pro vyhledávání: '"Derek M. Kita"'
Autor:
Derek M. Kita, Brando Miranda, David Favela, David Bono, Jérôme Michon, Hongtao Lin, Tian Gu, Juejun Hu
Publikováno v:
Nature Communications, Vol 9, Iss 1, Pp 1-7 (2018)
On-chip spectrometers typically have limited spectral channels and low signal to noise ratios. Here the authors introduce a digital architecture that uses switches to change the interferometer path lengths, enabling exponentially more spectral channe
Externí odkaz:
https://doaj.org/article/643bc1d6f4714a79809f2dc61215a278
Autor:
Derek M. Kita, Josep M. Fargas Cabanillas, Golam Bappi, Forrest G. Sedgwick, Mark T. Wade, John M. Fini, Derek Van Orden, Milos A. Popovic, Anatol Khilo
Publikováno v:
OSA Advanced Photonics Congress 2021.
We demonstrate a 75 µm-long rapid adiabatic coupler (RAC) with an average insertion loss <0.025 dB/coupler and an average power splitting ratio of 50±1.09% over 40 nm bandwidth and 68 reticles across a 300 mm 45 nm SOI CMOS wafer.
Autor:
Anatol Khilo, Derek M. Kita, Forrest G. Sedgwick, Milos A. Popovic, Josep M. Fargas Cabanillas, Mark T. Wade, John M. Fini
Publikováno v:
OFC
We demonstrate a rapid adiabatic coupler (RAC) with 50±1.08% power splitting ratio over 100 nm and insertion loss
Autor:
M. Patel, C. Madden, J. Frey, U. Krishnamoorthy, Michael Rust, Pavan Bhargava, N. Chan, Songtao Liu, R. Roucka, Forrest Sedgwick, Mark T. Wade, H. Eachempatti, Austin Katzin, Erik Anderson, F. Luna, Sidney Buchbinder, Chen Li, D. Van Orden, John M. Fini, M. Sysak, Manan Raval, L. Okada, Mason Zhang, Chandarasekaran Ramamurthy, Shahab Ardalan, Chong Zhang, Anatoly Khilo, Haiwei Lu, R. Zeng, Woorham Bae, Derek M. Kita, K. Robberson, E. Jan, Behrooz Beheshtian, P. Chao, Roy Meade, Daniel Jeong, K. Chang, Vladimir Stojanovic, Byungchae Kim, Chen Sun
Publikováno v:
OFC
We demonstrate 128 Gbps/port (8-λ × 16 Gbps/λ) natively error-free transmission across eight optical ports using a 8-port, 8-λ/port WDM remote laser source and a pair of monolithically integrated CMOS optical I/O chiplets with 4.96-5.56 pJ/bit op