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Alexander N. Craddock
Alexander N. Craddock
Qunnect Inc.
E-mail confirmado em quconn.com
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On-demand indistinguishable single photons from an efficient and pure source based on a Rydberg ensemble
DP Ornelas-Huerta, AN Craddock, EA Goldschmidt, AJ Hachtel, Y Wang, ...
Optica 7 (7), 813-819, 2020
602020
Quantum interference between photons from an atomic ensemble and a remote atomic ion
AN Craddock, J Hannegan, DP Ornelas-Huerta, JD Siverns, AJ Hachtel, ...
Physical review letters 123 (21), 213601, 2019
362019
Field-deployable quantum memory for quantum networking
Y Wang, AN Craddock, R Sekelsky, M Flament, M Namazi
Physical Review Applied 18 (4), 044058, 2022
192022
Tunable three-body loss in a nonlinear Rydberg medium
DP Ornelas-Huerta, P Bienias, AN Craddock, MJ Gullans, AJ Hachtel, ...
Physical Review Letters 126 (17), 173401, 2021
72021
Exotic photonic molecules via Lennard-Jones-like potentials
P Bienias, MJ Gullans, M Kalinowski, AN Craddock, DP Ornelas-Huerta, ...
Physical Review Letters 125 (9), 093601, 2020
72020
High-rate subgigahertz-linewidth bichromatic entanglement source for quantum networking
AN Craddock, Y Wang, F Giraldo, R Sekelsky, M Flament, M Namazi
Physical Review Applied 21 (3), 034012, 2024
42024
Automated distribution of high-rate, high-fidelity polarization entangled photons using deployed metropolitan fibers
AN Craddock, A Lazenby, GB Portmann, R Sekelsky, M Flament, ...
arXiv preprint arXiv:2404.08626, 2024
32024
Resonant enhancement of three-body loss between strongly interacting photons
M Kalinowski, Y Wang, P Bienias, MJ Gullans, DP Ornelas-Huerta, ...
Physical Review Research 4 (2), L022059, 2022
32022
High-rate sub-GHz linewidth bichromatic entanglement source for quantum networking
AN Craddock, Y Wang, F Giraldo, R Sekelsky, M Flament, M Namazi
arXiv preprint arXiv:2304.05504, 2023
22023
A room-temperature field-deployable quantum memory for quantum repeater schemes
Y Wang, A Craddock, R Sekelsky, M Flament, M Namazi
Quantum Computing, Communication, and Simulation II 12015, 38-42, 2022
22022
Tunable three-body loss in a nonlinear Rydberg medium
DPO Huerta, P Bienias, AN Craddock, MJ Gullans, AJ Hachtel, ...
arXiv preprint arXiv:2009.13599, 2020
22020
Automated Distribution of Polarization-Entangled Photons Using Deployed New York City Fibers
AN Craddock, A Lazenby, GB Portmann, R Sekelsky, M Flament, ...
PRX Quantum 5 (3), 030330, 2024
12024
High spectral brightness telecom compatible bichromatic entanglement source using warm atomic vapors
A Craddock, M Namazi, Y Wang, M Flament, R Sekelsky
APS March Meeting Abstracts 2023, W65. 009, 2023
12023
A Novel Frequency Conversion Source for Creating Bichromatic Entangled Photons
M Namazi, A Craddock, R Sekelsky, M Flament
Qunnect Inc, 2024
2024
High fidelity storage and retrieval of quantum information in a warm atomic vapor cell device
M Namazi, M Flament, Y Wang, A Craddock
US Patent 12,001,058, 2024
2024
Entanglement between a telecom photon and a room-temperature atomic-vapor quantum memory
Y Wang, AN Craddock, F Giraldo, R Sekelsky, M Flament, M Namazi
CLEO: Fundamental Science, FTh3R. 7, 2024
2024
Systems and methods for performing quantum telecommunications using a bichromatic entanglement source
M Namazi, M Flament, Y Wang, A Craddock, R Sekelsky, A Richardson
US Patent App. 18/274,865, 2024
2024
Field-deployable quantum memory with high fidelity and long coherence time
M Namazi, A Craddock, Y Wang, M Flament
Photonics for Quantum 2022, PC1224305, 2022
2022
Towards Practical Quantum Repeaters Using Room-Temperature Vapor Technology
AN Craddock, Y Wang, R Sekelsky, M Flament, M Namazi
Quantum 2.0, QM3B. 4, 2022
2022
Towards practical quantum repeaters using room-temperature vapor technology
M Namazi, AN Craddock, Y Wang, RS Sekelsky, M Flament
Quantum Computing, Communication, and Simulation II, PC120150X, 2022
2022
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