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Jacob Blackmore
Jacob Blackmore
PDRA, Oxford Ion Trap Quantum Computing
Verified email at physics.ox.ac.uk
Title
Cited by
Cited by
Year
Ultracold molecules for quantum simulation: rotational coherences in CaF and RbCs
JA Blackmore, L Caldwell, PD Gregory, EM Bridge, R Sawant, ...
Quantum Science and Technology 4 (1), 014010, 2018
1502018
Ultracold polar molecules as qudits
R Sawant, JA Blackmore, PD Gregory, J Mur-Petit, D Jaksch, J Aldegunde, ...
New Journal of Physics 22 (1), 013027, 2020
1272020
Sticky collisions of ultracold RbCs molecules
PD Gregory, MD Frye, JA Blackmore, EM Bridge, R Sawant, JM Hutson, ...
Nature communications 10 (1), 3104, 2019
1202019
Loss of Ultracold Molecules via Optical Excitation of Long-Lived Two-Body Collision Complexes
PD Gregory, JA Blackmore, SL Bromley, SL Cornish
Physical Review Letters 124 (16), 163402, 2020
1152020
Robust storage qubits in ultracold polar molecules
PD Gregory, JA Blackmore, SL Bromley, JM Hutson, SL Cornish
Nature Physics 17 (10), 1149-1153, 2021
702021
ac Stark effect in ultracold polar molecules
PD Gregory, JA Blackmore, J Aldegunde, JM Hutson, SL Cornish
Physical Review A 96 (2), 021402, 2017
352017
Molecule–molecule and atom–molecule collisions with ultracold RbCs molecules
PD Gregory, JA Blackmore, LM Fernley, SL Bromley, JM Hutson, ...
New Journal of Physics 23 (12), 125004, 2021
312021
Controlling the ac Stark effect of RbCs with dc electric and magnetic fields
JA Blackmore, R Sawant, PD Gregory, SL Bromley, J Aldegunde, ...
Physical Review A 102 (5), 053316, 2020
282020
Coherent manipulation of the internal state of ultracold 87 Rb 133 Cs molecules with multiple microwave fields
JA Blackmore, PD Gregory, SL Bromley, SL Cornish
Physical Chemistry Chemical Physics 22 (47), 27529-27538, 2020
222020
Optimization of scalable ion-cavity interfaces for quantum photonic networks
S Gao, JA Blackmore, WJ Hughes, TH Doherty, JF Goodwin
Physical Review Applied 19 (1), 014033, 2023
62023
Efficient operator method for modeling mode mixing in misaligned optical cavities
WJ Hughes, TH Doherty, JA Blackmore, P Horak, JF Goodwin
Physical Review A 109 (1), 013524, 2024
22024
Mode mixing and losses in misaligned microcavities
WJ Hughes, TH Doherty, JA Blackmore, P Horak, JF Goodwin
Optics Express 31 (20), 32619-32636, 2023
22023
Diatomic-py: A Python module for calculating the rotational and hyperfine structure of 1Σ molecules
JA Blackmore, PD Gregory, JM Hutson, SL Cornish
Computer Physics Communications 282, 108512, 2023
22023
Ultracold polar molecules as qudits
J Mur-Petit, R Sawant, JA Blackmore, PD Gregory, JM Hutson, D Jaksch, ...
New Journal of Physics 22 (1), 2020
22020
Coherence and Collisions in Ultracold RbCs Molecules
J BLACKMORE
Durham University, 2020
22020
Loss of ultracold RbCs molecules via optical excitation of long-lived two-body collision complexes
P Gregory, J Blackmore, S Bromley, S Cornish
Bulletin of the American Physical Society 66, 2021
12021
Alignment properties of finite-size and non-spherical optical microresonators
WJ Hughes, TH Doherty, JA Blackmore, JF Goodwin, P Horak
2024
Data and analysis for the paper: Efficient operator method for modeling mode mixing in misaligned optical cavities
WJ Hughes, TH Doherty, JA Blackmore, P Horak, JF Goodwin
University of Southampton, 2024
2024
[Data and analysis] Mode mixing and losses in misaligned microcavities
W Hughes, T Doherty, J Blackmore, P Horak, J Goodwin
University of Oxford, 2023
2023
Mode mixing and losses in misaligned microcavities
J Blackmore, J Goodwin, W Hughes, P Horak, T Doherty
figshare Academic Research System, 2023
2023
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