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A. Josset

ORCID: 0009-0007-7199-2499
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About
Contact & Profiles
A5092070324
Research Areas
  • Cold Atom Physics and Bose-Einstein Condensates
  • Atomic and Subatomic Physics Research
  • Advanced Frequency and Time Standards
  • Advanced Fiber Laser Technologies
  • Laser Design and Applications

Imperial College London
 2024

 Centralized design and production of the ultra-high vacuum and laser-stabilization systems for the AION ultra-cold strontium laboratories
OPENALEX - Publications 
Ben Stray O. Ennis Sam Hedges S. Dey Mehdi Langlois and 67 more Kai Bongs Samuel Lellouch Michael Holynski Brian Bostwick Jing Chen Z. Eyler V. Gibson Timothy Harte Chao‐Chin Hsu M. Karzazi J. Mitchell N. Mouelle Ulrich Schneider Yi-Lei Tang Kimberly Tkalčec Yao Zhi Kristen T. Clarke Axel Vick Kieran Bridges J. P. Coleman Gedminas Elertas Leonie Hawkins S. Hindley Kazi Albab Hussain C. Metelko Henry Throssell Charles F. A. Baynham O. Buchmüller D.C. Evans Richard Hobson L. Iannizzotto-Venezze A. Josset Elizabeth Pasatembou B. E. Sauer M. R. Tarbutt Leonardo Badurina Ankit Beniwal Diego Blas James E. Carlton John Ellis Christopher McCabe Elliot Bentine Martin J. Booth D. Bortoletto C. J. Foot Cuauhtemoc Castellanos T. M. Hird Kenneth M. Hughes A. James A. J. Lowe John March-Russell Jesse S. Schelfhout I. P. J. Shipsey D. Weatherill D. Wood S. Balashov Mark G. Bason J. Boehm M. Courthold M. van der Grinten P. Majewski A. L. Marchant D. M. Newbold Zhongben Pan Z. Tam T. Valenzuela I. Wilmut

This paper outlines the centralized design and production of ultra-high-vacuum sidearm laser-stabilization systems for AION Ultra-Cold Strontium Laboratories. Commissioning data on residual gas steady-state pressures in chambers, magnetic field quality, laser stabilization, loading rate 3D magneto-optical trap are presented. Streamlining stabilization enabled Collaboration to build equip parallel five state-of-the-art Laboratories within 24 months by leveraging key expertise collaboration....

10.1116/5.0172731 article EN cc-by AVS Quantum Science 2024-03-01
 Progress toward ultra-cold Sr for the AION project—A red MOT and an optical-heterodyne diagnostic tool for injection-locked laser diodes
OPENALEX - Publications 
Elizabeth Pasatembou Charles F. A. Baynham O. Buchmüller D.C. Evans Richard Hobson and 2 more L. Iannizzotto Venezze A. Josset

Long-baseline atom interferometers, such as the one to be built by AION collaboration, require ultra-cold atomic clouds. These are produced trapping atoms in magneto-optical traps (MOTs) using high-power, narrow-linewidth lasers. We report on laser and optical master–slave injection-locked system used address 1S0–3P1 strontium transition at 689 nm of a narrowband MOT. demonstrate quality injection through characterization lock an easy-to-assemble method that uses double-pass acousto-optic...

10.1116/5.0180043 article EN cc-by AVS Quantum Science 2024-03-01
 Centralised Design and Production of the Ultra-High Vacuum and Laser-Stabilisation Systems for the AION Ultra-Cold Strontium Laboratories
OPENALEX - Publications 
Ben Stray O. Ennis S. Hedges S. Dey Mehdi Langlois and 67 more Kai Bongs Samuel Lellouch Michael Holynski Brian Bostwick Jing Chen Z. Eyler V. Gibson Timothy Harte M. J. Hsu M. Karzazi J. Mitchell N. Mouelle Ulrich Schneider Yi-Lei Tang Kimberly Tkalčec Yao Zhi Kristen T. Clarke Axel Vick K. Bridges J. P. Coleman Gedminas Elertas Leonie Hawkins S. Hindley Kazi Albab Hussain C. Metelko Henry Throssell Charles F. A. Baynham O. Buchmüller D. Evans Richard Hobson L. Iannizzotto-Venezze A. Josset Elizabeth Pasatembou B. E. Sauer M. R. Tarbutt Leonardo Badurina Ajay Beniwal Diego Blas James E. Carlton J. Ellis C. McCabe Elliot Bentine Martin J. Booth D. Bortoletto C. J. Foot Connie Gomez T. M. Hird Kenneth M. Hughes A. James A. J. Lowe John March-Russell Jesse S. Schelfhout I. P. J. Shipsey D. Weatherill D. Wood S. Balashov Mark G. Bason J. Boehm M. Courthold M. van der Grinten P. Majewski A. L. Marchant D. M. Newbold Zhongben Pan Z. Tam T. Valenzuela I. Wilmut

This paper outlines the centralised design and production of Ultra-High-Vacuum sidearm Laser-Stabilisation systems for AION Ultra-Cold Strontium Laboratories. Commissioning data on residual gas steady-state pressures in chambers, magnetic field quality, laser stabilisation, loading rate 3D Magneto-Optical Trap are presented. Streamlining stabilisation enabled Collaboration to build equip parallel five state-of-the-art Laboratories within 24 months by leveraging key expertise collaboration....

10.48550/arxiv.2305.20060 preprint EN cc-by-nc-nd arXiv (Cornell University) 2023-01-01
 Progress towards ultracold Sr for the AION project -- sub-microkelvin atoms and an optical-heterodyne diagnostic tool for injection-locked laser diodes
OPENALEX - Publications 
Elizabeth Pasatembou Charles F. A. Baynham O. Buchmüller D. Evans Richard Hobson and 2 more L. Iannizzotto-Venezze A. Josset

Long-baseline atom interferometers, such as the one to be built by AION collaboration, require ultra-cold atomic clouds. These are produced trapping atoms in Magneto-Optical Traps (MOTs) using high-power, narrow-linewidth lasers. We report on laser and optical master-slave injection locked system used address 1S0 - 3P1 strontium transition at 689 nm, of a narrowband MOT. demonstrate quality through characterisation lock novel, easy-to-assemble method which uses double pass acousto-optic...

10.48550/arxiv.2310.08500 preprint EN cc-by-nc-nd arXiv (Cornell University) 2023-01-01
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