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Physics databaseMr Ruvindha Lecamwasam
| Position | PhD Student |
|---|---|
| Department | Department of Quantum Science |
| Office | Physics 1 26 |
Publications
Journal article
Ma J, Qin J, Campbell G, Guccione G, Lecamwasam R, Buchler B, Lam P
Observation of nonlinear dynamics in an optical levitation system
Communications Physics 3, 1(2020)
Observation of nonlinear dynamics in an optical levitation system
Communications Physics 3, 1(2020)
Lecamwasam R, Graham A, Ma J, Sripathy K, Guccione G, Qin J, Campbell G, Buchler B, Hope J, Lam P
Dynamics and stability of an optically levitated mirror
Physical Review A: Atomic, Molecular and Optical Physics 101, 5(2020)
Dynamics and stability of an optically levitated mirror
Physical Review A: Atomic, Molecular and Optical Physics 101, 5(2020)
Ma J, Qin J, Campbell G, Lecamwasam R, Sripathy K, Hope J, Buchler B, Lam P
Photothermally induced transparency
Science Advances 6, 8(2020)
Photothermally induced transparency
Science Advances 6, 8(2020)
Ma J, Qin J, Campbell G, Guccione G, Lecamwasam R, Buchler B, Lam P
Observation of nonlinear dynamics in an optical levitation system
Communications Physics 3, 1(2020) 1-10
Observation of nonlinear dynamics in an optical levitation system
Communications Physics 3, 1(2020) 1-10
Vogl T, Lecamwasam R, Buchler B, Lu Y, Lam P
Compact Cavity-Enhanced Single-Photon Generation with Hexagonal Boron Nitride
ACS Photonics 6, 8(2019) 1955-1962
Compact Cavity-Enhanced Single-Photon Generation with Hexagonal Boron Nitride
ACS Photonics 6, 8(2019) 1955-1962
Lecamwasam R, Hush M, James M, Ribeiro de Carvalho A
Measurement-based generation of shaped single photons and coherent state superpositions in optical cavities
Physical Review A: Atomic, Molecular and Optical Physics 95, 1(2017)
Measurement-based generation of shaped single photons and coherent state superpositions in optical cavities
Physical Review A: Atomic, Molecular and Optical Physics 95, 1(2017)
(6 publications)
Conference paper
Haine S, Lecamwasam R, Hope J
Using interaction-based readouts to approach the ultimate limit of detection noise robustness for quantum-enhanced metrology in collective spin systems
Optical, Opto-Atomic, and Entanglement-Enhanced Precision Metrology 2019 ?, ?(2019) 1-13
Using interaction-based readouts to approach the ultimate limit of detection noise robustness for quantum-enhanced metrology in collective spin systems
Optical, Opto-Atomic, and Entanglement-Enhanced Precision Metrology 2019 ?, ?(2019) 1-13
(1 publications)
Updated: 4 September 2019/ Responsible Officer: Director, RSPhys/ Page Contact: Physics Webmaster
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