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Krishna C Balram

Showing results (1-10 of 22) with videos related to

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Optics Express|October 15, 2022
Using electrical resistance asymmetries to infer the geometric shapes of foundry patterned nanophotonic structuresVinita Mittal, Krishna C Balram
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control|November 13, 2023
Low-Loss GHz Frequency Phononic Integrated Circuits in Gallium Nitride for Compact Radio Frequency Acoustic Wave DevicesMahmut Bicer, Krishna C Balram
Optics Letters|August 2, 2019
High-frequency, resonant acousto-optic modulators fabricated in a MEMS foundry platformStefano Valle, Krishna C Balram
Optics Express|May 15, 2020
Suspended gallium arsenide platform for building large scale photonic integrated circuits: passive devicesPisu Jiang, Krishna C Balram
Optics Express|October 6, 2012
Self-aligned silicon fins in metallic slits as a platform for planar wavelength-selective nanoscale resonant photodetectorsKrishna C Balram, David A B Miller
Nano Letters|June 2, 2022
Smooth Sidewalls on Crystalline Gold through Facet-Selective Anisotropic Reactive Ion Etching: Toward Low-Loss Plasmonic DevicesAlexander B Greenwood, Krishna C Balram, Henkjan Gersen
Advanced Science (Weinheim, Baden-Wurttemberg, Germany)|November 17, 2023
Robotic Vectorial Field Alignment for Spin-Based Quantum SensorsJoe A Smith, Dandan Zhang, Krishna C Balram
Optics Letters|August 1, 2023
Quantifying and mitigating optical surface loss in suspended GaAs photonic integrated circuitsRobert Thomas, Haoyang Li, Jude Laverock, et al.
Nanophotonics (Berlin, Germany)|September 19, 2025
Engineering cm-scale true push-pull electro-optic modulators in a suspended GaAs photonic integrated circuit platform by exploiting the orientation induced asymmetry of the Pockels <i>r</i> <sub>41</sub> coefficientHaoyang Li, Robert Thomas, Pisu Jiang, et al.
Optics Express|April 24, 2013
Nanoscale resonant-cavity-enhanced germanium photodetectors with lithographically defined spectral response for improved performance at telecommunications wavelengthsKrishna C Balram, Ross M Audet, David A B Miller
Pageof 3

Showing results (1-10 of 22) with videos related to

Sort By:
Pageof 3
Optics Express|October 15, 2022
Using electrical resistance asymmetries to infer the geometric shapes of foundry patterned nanophotonic structuresVinita Mittal, Krishna C Balram
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control|November 13, 2023
Low-Loss GHz Frequency Phononic Integrated Circuits in Gallium Nitride for Compact Radio Frequency Acoustic Wave DevicesMahmut Bicer, Krishna C Balram
Optics Letters|August 2, 2019
High-frequency, resonant acousto-optic modulators fabricated in a MEMS foundry platformStefano Valle, Krishna C Balram
Optics Express|May 15, 2020
Suspended gallium arsenide platform for building large scale photonic integrated circuits: passive devicesPisu Jiang, Krishna C Balram
Optics Express|October 6, 2012
Self-aligned silicon fins in metallic slits as a platform for planar wavelength-selective nanoscale resonant photodetectorsKrishna C Balram, David A B Miller
Nano Letters|June 2, 2022
Smooth Sidewalls on Crystalline Gold through Facet-Selective Anisotropic Reactive Ion Etching: Toward Low-Loss Plasmonic DevicesAlexander B Greenwood, Krishna C Balram, Henkjan Gersen
Advanced Science (Weinheim, Baden-Wurttemberg, Germany)|November 17, 2023
Robotic Vectorial Field Alignment for Spin-Based Quantum SensorsJoe A Smith, Dandan Zhang, Krishna C Balram
Optics Letters|August 1, 2023
Quantifying and mitigating optical surface loss in suspended GaAs photonic integrated circuitsRobert Thomas, Haoyang Li, Jude Laverock, et al.
Nanophotonics (Berlin, Germany)|September 19, 2025
Engineering cm-scale true push-pull electro-optic modulators in a suspended GaAs photonic integrated circuit platform by exploiting the orientation induced asymmetry of the Pockels <i>r</i> <sub>41</sub> coefficientHaoyang Li, Robert Thomas, Pisu Jiang, et al.
Optics Express|April 24, 2013
Nanoscale resonant-cavity-enhanced germanium photodetectors with lithographically defined spectral response for improved performance at telecommunications wavelengthsKrishna C Balram, Ross M Audet, David A B Miller
Pageof 3