Photonic MEMS Vacuum Trap For Cold Atoms
Lead Research Organisation:
University of Glasgow
Department Name: School of Engineering
Abstract
This project aims to develop completely new ways to trap atoms using integrated photonics
so the project is looking to pioneer completely new science and technology approaches to
cold atoms.
Integrating diode laser with photonic cavities and MEMS vacuum chambers will allow the
trapping and control of atoms by light. The work is supported by the UK Quantum
Technology Programme and the Royal Academy of Engineering.
Trapping atoms with light enables atoms to be cooled to below microKelvin temperatures
resulting in the most accurate set of sensors that can be used for timing, measuring
acceleration, rotation or gravity. Trapped atoms can also form qubits and are also being
used to build quantum computers. Such sensors presently require large vacuum chambers
with high power lasers to trap atoms with hundreds of Watts of power for operation. This
project aims to miniaturize these atom traps using the diode lasers similar to CD/DVD
players combined with optical cavities integrated with atoms in MEMS vacuum systems
aiming to reduce the size, weight and power to allow these sensors to reduce to the size of a
mobile phone and to be powered by batteries.
so the project is looking to pioneer completely new science and technology approaches to
cold atoms.
Integrating diode laser with photonic cavities and MEMS vacuum chambers will allow the
trapping and control of atoms by light. The work is supported by the UK Quantum
Technology Programme and the Royal Academy of Engineering.
Trapping atoms with light enables atoms to be cooled to below microKelvin temperatures
resulting in the most accurate set of sensors that can be used for timing, measuring
acceleration, rotation or gravity. Trapped atoms can also form qubits and are also being
used to build quantum computers. Such sensors presently require large vacuum chambers
with high power lasers to trap atoms with hundreds of Watts of power for operation. This
project aims to miniaturize these atom traps using the diode lasers similar to CD/DVD
players combined with optical cavities integrated with atoms in MEMS vacuum systems
aiming to reduce the size, weight and power to allow these sensors to reduce to the size of a
mobile phone and to be powered by batteries.
Organisations
Studentship Projects
| Project Reference | Relationship | Related To | Start | End | Student Name |
|---|---|---|---|---|---|
| EP/R513222/1 | 30/09/2018 | 29/09/2023 | |||
| 2749477 | Studentship | EP/R513222/1 | 30/09/2022 | 30/03/2026 | Zack McConkey |
| EP/W524359/1 | 30/09/2022 | 29/09/2028 | |||
| 2749477 | Studentship | EP/W524359/1 | 30/09/2022 | 30/03/2026 | Zack McConkey |