High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with 4.1 Tbit/s transmission capacity
Low-cost, small-footprint, highly efficient, and mass-producible on-chip wavelength-division-
multiplexing (WDM) light sources are key components in future silicon electronic and …
multiplexing (WDM) light sources are key components in future silicon electronic and …
[引用][C] High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with 41 Tbit/s transmission capacity
S Liu, X Wu, D Jung, JC Norman, MJ Kennedy… - Optica, 2019 - osti.gov
High-channel-count 20 GHz passively mode locked quantum dot laser directly grown on Si with 4.1 Tbit/s transmission capacity
S Liu, X Wu, D Jung, JC Norman, M Kennedy… - arXiv preprint arXiv …, 2018 - arxiv.org
Low cost, small footprint, highly efficient and mass producible on-chip wavelength-division-
multiplexing (WDM) light sources are key components in future silicon electronic and …
multiplexing (WDM) light sources are key components in future silicon electronic and …
[PDF][PDF] High-channel-count 20 GHz passively mode locked quantum dot laser directly grown on Si with 4.1 Tbit/s transmission capacity
MJ KENNEDY, HONK TSANG, AC GOSSARD… - researchgate.net
Low cost, small footprint, highly efficient and mass producible on-chip wavelength-division-
multiplexing (WDM) light sources are key components in future silicon electronic and …
multiplexing (WDM) light sources are key components in future silicon electronic and …
[PDF][PDF] High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with 4.1 Tbit/s transmission capacity
S LIU, X WU, D JUNG, JC NORMAN, MJ KENNEDY… - optoelectronics.ece.ucsb.edu
Driven by the huge demand for high-performance computing and large-scale data centers,
photonic interconnects employing wavelength-division multiplexing (WDM) are evolving fast …
photonic interconnects employing wavelength-division multiplexing (WDM) are evolving fast …
High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with 41 Tbit/s transmission capacity
S Liu, X Wu, D Jung, JC Norman, MJ Kennedy… - Optica, 2019 - ui.adsabs.harvard.edu
Low cost, small footprint, highly efficient and mass producible on-chip wavelength-division-
multiplexing (WDM) light sources are key components in future silicon electronic and …
multiplexing (WDM) light sources are key components in future silicon electronic and …
[引用][C] High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with 41 Tbit/s transmission capacity
S Liu, X Wu, D Jung, JC Norman, MJ Kennedy… - Optica, 2019 - cir.nii.ac.jp
High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with
41 Tbit/s transmission capacity | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ …
41 Tbit/s transmission capacity | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ …
High-channel-count 20 GHz passively mode locked quantum dot laser directly grown on Si with 4.1 Tbit/s transmission capacity
S Liu, X Wu, D Jung, JC Norman, M Kennedy… - 2018 - preprints.opticaopen.org
Low cost, small footprint, highly efficient and mass producible on-chip wavelength-division-
multiplexing (WDM) light sources are key components in future silicon electronic and …
multiplexing (WDM) light sources are key components in future silicon electronic and …
[PDF][PDF] High-channel-count 20 GHz passively mode-locked quantum dot laser directly grown on Si with 4.1 Tbit/s transmission capacity
S LIU, X WU, D JUNG, JC NORMAN, MJ KENNEDY… - siliconphotonics.ece.ucsb.edu
Driven by the huge demand for high-performance computing and large-scale data centers,
photonic interconnects employing wavelength-division multiplexing (WDM) are evolving fast …
photonic interconnects employing wavelength-division multiplexing (WDM) are evolving fast …