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C David Wright

Showing results (1-10 of 39) with videos related to

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Nature Nanotechnology|May 17, 2016
Phase-change devices: Crystal-clear neuronal computingC David Wright
Nanotechnology|December 10, 2016
Can conventional phase-change memory devices be scaled down to single-nanometre dimensions?Hasan Hayat, Krisztian Kohary, C David Wright
Nature|July 11, 2014
An optoelectronic framework enabled by low-dimensional phase-change filmsPeiman Hosseini, C David Wright, Harish Bhaskaran
Scientific Reports|August 31, 2017
Phase-change devices for simultaneous optical-electrical applicationsYat-Yin Au, Harish Bhaskaran, C David Wright
Nature Communications|April 27, 2022
Chalcogenide optomemristors for multi-factor neuromorphic computationSyed Ghazi Sarwat, Timoleon Moraitis, C David Wright, et al.
Science Advances|June 15, 2022
Polarization-selective reconfigurability in hybridized-active-dielectric nanowiresJune Sang Lee, Nikolaos Farmakidis, C David Wright, et al.
Nanomaterials (Basel, Switzerland)|March 6, 2021
Enhanced Performance and Diffusion Robustness of Phase-Change Metasurfaces via a Hybrid Dielectric/Plasmonic ApproachJoe Shields, Carlota Ruiz de Galarreta, Jacopo Bertolotti, et al.
Optics Express|October 14, 2022
Rigorous dynamic model of a silicon ring resonator with phase change material for a neuromorphic nodeAlessio Lugnan, Santiago García-Cuevas Carrillo, C David Wright, et al.
Science Advances|September 30, 2017
On-chip photonic synapseZengguang Cheng, Carlos Ríos, Wolfram H P Pernice, et al.
Journal of Nanoscience and Nanotechnology|September 11, 2015
A Physics-Based Three Dimensional Model for Write and Read Performances of Phase-Change Probe MemoryLei Wang, C David Wright, Mustafa M Aziz, et al.
Pageof 4

Showing results (1-10 of 39) with videos related to

Sort By:
Pageof 4
Nature Nanotechnology|May 17, 2016
Phase-change devices: Crystal-clear neuronal computingC David Wright
Nanotechnology|December 10, 2016
Can conventional phase-change memory devices be scaled down to single-nanometre dimensions?Hasan Hayat, Krisztian Kohary, C David Wright
Nature|July 11, 2014
An optoelectronic framework enabled by low-dimensional phase-change filmsPeiman Hosseini, C David Wright, Harish Bhaskaran
Scientific Reports|August 31, 2017
Phase-change devices for simultaneous optical-electrical applicationsYat-Yin Au, Harish Bhaskaran, C David Wright
Nature Communications|April 27, 2022
Chalcogenide optomemristors for multi-factor neuromorphic computationSyed Ghazi Sarwat, Timoleon Moraitis, C David Wright, et al.
Science Advances|June 15, 2022
Polarization-selective reconfigurability in hybridized-active-dielectric nanowiresJune Sang Lee, Nikolaos Farmakidis, C David Wright, et al.
Nanomaterials (Basel, Switzerland)|March 6, 2021
Enhanced Performance and Diffusion Robustness of Phase-Change Metasurfaces via a Hybrid Dielectric/Plasmonic ApproachJoe Shields, Carlota Ruiz de Galarreta, Jacopo Bertolotti, et al.
Optics Express|October 14, 2022
Rigorous dynamic model of a silicon ring resonator with phase change material for a neuromorphic nodeAlessio Lugnan, Santiago García-Cuevas Carrillo, C David Wright, et al.
Science Advances|September 30, 2017
On-chip photonic synapseZengguang Cheng, Carlos Ríos, Wolfram H P Pernice, et al.
Journal of Nanoscience and Nanotechnology|September 11, 2015
A Physics-Based Three Dimensional Model for Write and Read Performances of Phase-Change Probe MemoryLei Wang, C David Wright, Mustafa M Aziz, et al.
Pageof 4