Jeremy Sage
Jeremy Sage
MIT Lincoln Laboratory
Verified email at
Cited by
Cited by
Trapped-ion quantum computing: Progress and challenges
CD Bruzewicz, J Chiaverini, R McConnell, JM Sage
Applied Physics Reviews 6 (2), 021314, 2019
Optical production of ultracold polar molecules
JM Sage, S Sainis, T Bergeman, D DeMille
Physical review letters 94 (20), 203001, 2005
Production and state-selective detection of ultracold RbCs molecules
AJ Kerman, JM Sage, S Sainis, T Bergeman, D DeMille
Physical review letters 92 (15), 153001, 2004
Production of Ultracold, Polar R b C s* Molecules via Photoassociation
AJ Kerman, JM Sage, S Sainis, T Bergeman, D DeMille
Physical review letters 92 (3), 033004, 2004
Enhanced sensitivity to variation of m e/m p in molecular spectra
D DeMille, S Sainis, J Sage, T Bergeman, S Kotochigova, E Tiesinga
Physical review letters 100 (4), 043202, 2008
Study of loss in superconducting coplanar waveguide resonators
JM Sage, V Bolkhovsky, WD Oliver, B Turek, PB Welander
Journal of Applied Physics 109 (6), 063915, 2011
Integrated optical addressing of an ion qubit
KK Mehta, CD Bruzewicz, R McConnell, RJ Ram, JM Sage, J Chiaverini
Nature nanotechnology 11 (12), 1066-1070, 2016
Integrated multi-wavelength control of an ion qubit
RJ Niffenegger, J Stuart, C Sorace-Agaskar, D Kharas, S Bramhavar, ...
Nature 586 (7830), 538-542, 2020
Inelastic collisions of ultracold heteronuclear molecules in an optical trap
ER Hudson, NB Gilfoy, S Kotochigova, JM Sage, D DeMille
Physical review letters 100 (20), 203201, 2008
Insensitivity of the rate of ion motional heating to trap-electrode material over a large temperature range
J Chiaverini, JM Sage
Physical Review A 89 (1), 012318, 2014
Low-loss integrated photonics for the blue and ultraviolet regime
GN West, W Loh, D Kharas, C Sorace-Agaskar, KK Mehta, J Sage, ...
Apl Photonics 4 (2), 026101, 2019
Prospects for production of ultracold RbCs molecules
T Bergeman, AJ Kerman, J Sage, S Sainis, D DeMille
The European Physical Journal D-Atomic, Molecular, Optical and Plasma …, 2004
Measurement of ion motional heating rates over a range of trap frequencies and temperatures
CD Bruzewicz, JM Sage, J Chiaverini
Physical Review A 91 (4), 041402, 2015
Ion traps fabricated in a CMOS foundry
KK Mehta, AM Eltony, CD Bruzewicz, IL Chuang, RJ Ram, JM Sage, ...
Applied Physics Letters 105 (4), 044103, 2014
Loading of a surface-electrode ion trap from a remote, precooled source
JM Sage, AJ Kerman, J Chiaverini
Physical Review A 86 (1), 013417, 2012
Distance scaling of electric-field noise in a surface-electrode ion trap
JA Sedlacek, A Greene, J Stuart, R McConnell, CD Bruzewicz, JM Sage, ...
Physical Review A 97 (2), 020302, 2018
Versatile silicon nitride and alumina integrated photonic platforms for the ultraviolet to short-wave infrared
C Sorace-Agaskar, D Kharas, S Yegnanarayanan, RT Maxson, GN West, ...
IEEE Journal of Selected Topics in Quantum Electronics 25 (5), 1-15, 2019
Materials challenges for trapped-ion quantum computers
KR Brown, J Chiaverini, JM Sage, H Häffner
Nature Reviews Materials 6 (10), 892-905, 2021
Chip-integrated voltage sources for control of trapped ions
J Stuart, R Panock, CD Bruzewicz, JA Sedlacek, R McConnell, IL Chuang, ...
Physical Review Applied 11 (2), 024010, 2019
Evidence for multiple mechanisms underlying surface electric-field noise in ion traps
JA Sedlacek, J Stuart, DH Slichter, CD Bruzewicz, R McConnell, JM Sage, ...
Physical Review A 98 (6), 063430, 2018
The system can't perform the operation now. Try again later.
Articles 1–20