Jesse Llewellyn Everett
Cited by
Cited by
Highly efficient optical quantum memory with long coherence time in cold atoms
YW Cho, GT Campbell, JL Everett, J Bernu, DB Higginbottom, MT Cao, ...
Optica 3 (1), 100-107, 2016
Multiparameter optimisation of a magneto-optical trap using deep learning
AD Tranter, HJ Slatyer, MR Hush, AC Leung, JL Everett, KV Paul, ...
Nature communications 9 (1), 4360, 2018
Observation of the 87Rb 5S1/2 to 4D3/2 electric quadrupole transition at 516.6 nm mediated via an optical nanofibre
T Ray, RK Gupta, V Gokhroo, JL Everett, T Nieddu, KS Rajasree, ...
New Journal of Physics 22 (6), 062001, 2020
Generation of cold Rydberg atoms at submicron distances from an optical nanofiber
KS Rajasree, T Ray, K Karlsson, JL Everett, SN Chormaic
Physical Review Research 2 (1), 012038, 2020
Dynamical Observations of Self-Stabilising Stationary Light
JL Everett, GT Campbell, YW Cho, P Vernaz-Gris, DB Higginbottom, ...
Nature Physics 2017 (13), 68-73, 2016
High-performance Raman memory with spatio-temporal reversal
P Vernaz-Gris, AD Tranter, JL Everett, AC Leung, KV Paul, GT Campbell, ...
Optics Express 26 (10), 12424-12431, 2018
Stationary light in atomic media
JL Everett, DB Higginbottom, GT Campbell, PK Lam, BC Buchler
Advanced Quantum Technologies 2 (5-6), 1800100, 2019
Machine learner optimization of optical nanofiber-based dipole traps
RK Gupta, JL Everett, AD Tranter, R Henke, V Gokhroo, PK Lam, ...
AVS Quantum Science 4 (2), 2022
Time-reversed and coherently enhanced memory: A single-mode quantum atom-optic memory without a cavity
JL Everett, P Vernaz-Gris, GT Campbell, AD Tranter, KV Paul, AC Leung, ...
Physical Review A 98 (6), 063846, 2018
Direct Imaging of Slow, Stored, and Stationary EIT Polaritons
GT Campbell, YW Cho, J Su, J Everett, N Robins, PK Lam, B Buchler
Quantum Science and Technology 2 (03), 4010, 2017
A mirrorless spinwave resonator
O Pinel, JL Everett, M Hosseini, GT Campbell, BC Buchler, PK Lam
Scientific reports 5 (1), 17633, 2015
Highly efficient and long-lived optical quantum memory with cold atoms
YW Cho, GT Campbell, JL Everett, J Bernu, DB Higginbottom, MT Cao, ...
CLEO: QELS_Fundamental Science, FM2E. 4, 2017
Excitation of 87Rb Rydberg atoms to nS and nD states (n≤68) via an optical nanofiber
A Vylegzhanin, DJ Brown, A Raj, DF Kornovan, JL Everett, E Brion, ...
Optica Quantum 1 (1), 6-13, 2023
Atom-light interfaces for quantum information processing
JL Everett
The Australian National University, 2018
Gradient echo quantum memory in warm atomic vapor
O Pinel, M Hosseini, BM Sparkes, JL Everett, D Higginbottom, ...
JoVE (Journal of Visualized Experiments), e50552, 2013
Probing cold atom interactions via optical nanofibers
SN Chormaic, A Vylegzhanin, Z Shahrabifarahani, A Raj, A Zaitsev, ...
Quantum Sensing, Imaging, and Precision Metrology 12447, 171-172, 2023
Machine learner optimization of atom loading in optical nanofiber evanescent dipole traps
RK Gupta, JL Everett, AD Tranter, R Henke, V Gokhroo, PK Lam, ...
Quantum 2.0, QW2A. 45, 2022
Extending gradient echo memory using machine learning and single photons
A Leung, A Tranter, K Paul, J Everett, P Vernaz-Gris, D Higginbottom, ...
Conference on Lasers and Electro-Optics/Pacific Rim, Th1D. 2, 2018
Stopped and stationary light with cold atomic ensembles and machine learning.
B Buchler, J Everett, YW Cho, A Tranter, H Slatyer, M Hush, K Paul, ...
CLEO: QELS_Fundamental Science, FM1G. 5, 2018
Electromagnetically-induced transparency assists the Raman gradient echo memory at moderate detuning, dependent on gradient order
JL Everett, A Papneja, A Saha, C Trainor, AD Tranter, BC Buchler
New Journal of Physics 26 (5), 053040, 2024
The system can't perform the operation now. Try again later.
Articles 1–20