Philippe Djorwé
TitreCitée parAnnée
Distant entanglement enhanced in -symmetric optomechanics
C Tchodimou, P Djorwe, SGN Engo
Physical Review A 96 (3), 033856, 2017
62017
Robustness of continuous-variable entanglement via geometrical nonlinearity
P Djorwé, SGN Engo, P Woafo
Physical Review A 90 (2), 024303, 2014
52014
Limiting effects of geometrical and optical nonlinearities on the squeezing in optomechanics
P Djorwé, SGN Engo, JHT Mbé, P Woafo
Physica B: Condensed Matter 422, 72-77, 2013
42013
Nonlinearity-induced limitations on cooling in optomechanical systems
P Djorwé, JHT Mbé, SGN Engo, P Woafo
Physical Review A 86 (4), 043816, 2012
42012
Frequency locking and controllable chaos through exceptional points in optomechanics
P Djorwe, Y Pennec, B Djafari-Rouhani
Physical Review E 98 (3), 032201, 2018
32018
Classical and semiclassical studies of nonlinear nano-optomechanical oscillators
P Djorwé, JHT Mbé, SGN Engo, P Woafo
The European Physical Journal D 67 (2), 45, 2013
32013
Exceptional Point Enhances Sensitivity of Optomechanical Mass Sensors
P Djorwe, Y Pennec, B Djafari-Rouhani
Physical Review Applied 12, 024002, 2019
22019
Optomechanical systems close to the conservative limit
DP Foulla, P Djorwé, ST Kingni, SGN Engo
Physical Review A 95 (1), 013831, 2017
12017
Balanced gain-loss induces collective dynamics of mechanically coupled resonators in Optomechanics
P Djorwé, Y Pennec, B Djafari-Rouhani
arXiv preprint arXiv:1903.12162, 2019
2019
Low-power phonon lasing through position-modulated Kerr-type nonlinearity
P Djorwe, Y Pennec, B Djafari-Rouhani
Scientific reports 9 (1), 1684, 2019
2019
Publisher's Note: Optomechanical systems close to the conservative limit [Phys. Rev. A 95, 013831 (2017)]
DP Foulla, P Djorwé, ST Kingni, SGN Engo
Physical Review A 95 (5), 059906, 2017
2017
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