Dylan Mahler
Dylan Mahler
Verified email at xanadu.ai
Cited by
Cited by
Violation of Heisenberg’s measurement-disturbance relationship by weak measurements
LA Rozema, A Darabi, DH Mahler, A Hayat, Y Soudagar, AM Steinberg
Physical review letters 109 (10), 100404, 2012
Adaptive quantum state tomography improves accuracy quadratically
DH Mahler, LA Rozema, A Darabi, C Ferrie, R Blume-Kohout, ...
Physical review letters 111 (18), 183601, 2013
Experimental nonlocal and surreal Bohmian trajectories
DH Mahler, L Rozema, K Fisher, L Vermeyden, KJ Resch, HM Wiseman, ...
Science advances 2 (2), e1501466, 2016
Scalable spatial superresolution using entangled photons
LA Rozema, JD Bateman, DH Mahler, R Okamoto, A Feizpour, A Hayat, ...
Physical review letters 112 (22), 223602, 2014
A homodyne detector integrated onto a photonic chip for measuring quantum states and generating random numbers
F Raffaelli, G Ferranti, DH Mahler, P Sibson, JE Kennard, A Santamato, ...
Quantum Science and Technology 3 (2), 025003, 2018
Self-calibrating quantum state tomography
AM Brańczyk, DH Mahler, LA Rozema, A Darabi, AM Steinberg, ...
New Journal of Physics 14 (8), 085003, 2012
Characterizing an entangled-photon source with classical detectors and measurements
LA Rozema, C Wang, DH Mahler, A Hayat, AM Steinberg, JE Sipe, ...
Optica 2 (5), 430-433, 2015
Quantum data compression of a qubit ensemble
LA Rozema, DH Mahler, A Hayat, PS Turner, AM Steinberg
Physical review letters 113 (16), 160504, 2014
Broadband quadrature-squeezed vacuum and nonclassical photon number correlations from a nanophotonic device
VD Vaidya, B Morrison, LG Helt, R Shahrokshahi, DH Mahler, MJ Collins, ...
Science advances 6 (39), eaba9186, 2020
A note on different definitions of momentum disturbance
LA Rozema, DH Mahler, A Hayat, AM Steinberg
Quantum Studies: Mathematics and Foundations 2 (1), 17-22, 2015
Generation of random numbers by measuring phase fluctuations from a laser diode with a silicon-on-insulator chip
F Raffaelli, P Sibson, JE Kennard, DH Mahler, MG Thompson, ...
Optics express 26 (16), 19730-19741, 2018
Optimizing the choice of spin-squeezed states for detecting and characterizing quantum processes
LA Rozema, DH Mahler, R Blume-Kohout, AM Steinberg
Physical Review X 4 (4), 041025, 2014
Squeezing in su (2) intelligent states
D Mahler, P Joanis, R Vilim, H de Guise
New Journal of Physics 12 (3), 033037, 2010
Quantum circuits with many photons on a programmable nanophotonic chip
JM Arrazola, V Bergholm, K Brádler, TR Bromley, MJ Collins, I Dhand, ...
Nature 591 (7848), 54-60, 2021
Single-mode quadrature squeezing using dual-pump four-wave mixing in an integrated nanophotonic device
Y Zhang, M Menotti, K Tan, VD Vaidya, DH Mahler, L Zatti, M Liscidini, ...
arXiv preprint arXiv:2001.09474, 2020
su (1, 1) intelligent states
P Joanis, DH Mahler, H De Guise
Journal of Physics A: Mathematical and Theoretical 43 (38), 385304, 2010
In praise of weakness
A Steinberg, A Feizpour
Physics World 26 (03), 35, 2013
Measuring Bohm trajectories of entangled photons
DH Mahler, LA Rozema, K Fisher, L Vermeyden, KJ Resch, B Braverman, ...
CLEO: QELS_Fundamental Science, FW1A. 1, 2014
Passive, broadband, and low-frequency suppression of laser amplitude noise to the shot-noise limit using a hollow-core fiber
EJ Allen, G Ferranti, KR Rusimova, RJA Francis-Jones, M Azini, ...
Physical Review Applied 12 (4), 044073, 2019
Identification of decoherence-free subspaces without quantum process tomography
AMS D. H. Mahler, L. Rozema, A. Darabi
Phys. Rev. A. 86 (5), 052101, 2012
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