Atom Interferometric Sensing of Earth's Spheres

27 Mar 2023, 09:00 → 28 Mar 2023, 22:30 Europe/London

Bowett Room (Queens' College Cambridge)

Overview

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Atom interferometry is a novel quantum sensor technology that uses ultra-cold atoms placed in entangled quantum states in order to detect minute changes in local fields arising from gravitational waves and ultra-light dark matter. They are extremely sensitive to accelerations and have been demonstrated for measurements of Newton’s gravitation constant, tests of the Equivalence Principle, and measurement of local gravity gradients [1-3]. The search for ultralight dark matter and measurements of gravitational waves requires interferometer baselines greater than approximately 100 m. In understanding the fundamental systematics and backgrounds of these detectors, we have discovered that atmospheric and seismic effects, even though physically decoupled from the atoms which are in vacuum and free-fall, are still detectable by the quantum phase of the atoms as was also shown for current generation laser interferometers [4-7]. From a different perspective these “noise” sources are also interesting signals that we may be able to understand better with these new sensor platforms. For example, the MIGA collaboration has investigated environmental impacts for long-baseline detectors [8]. 

 

Scope

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To elucidate the impact of atom interferometers as environmental sensors and to develop better simulations of the detector response we will bring together the expertise of the Earth Sciences and atom interferometry communities. Together with the scientists of the Cavendish Laboratory leading large-scale atom interferometry collaborations (MAGIS-100 [9] in the US and AION [10] in the UK), the workshop will gather experimental and theoretical experts in geophysics and modelling and international experts in atom interferometry leading large-scale interferometry collaborations worldwide.

 

Organizing Committee

Chair: Jeremiah Mitchell, University of Cambridge, UK

Co-Chair: Valerie Gibson, University of Cambridge, UK

Kai Bongs, University of Birmingham, UK

Philippe Bouyer, CNRS, Institut d’Optique, France

Oliver Buchmuller, Imperial College London, UK, CERN

John Ellis, King's College London, UK, CERN

Jason Hogan, Stanford University, US

Michael Holynski, University of Birmingham, UK

Mike Kendall, University of Oxford, UK

Timothy Kovachy, Northwestern University, US

Ernst Rasel, Leibniz Universität Hannover, Germany

Nicholas Rawlinson, University of Cambridge, UK

 

References

[1] Bongs, K. et al. Taking atom interferometric quantum sensors from the laboratory to real-world applications. Nat Rev Phys 1, 731–739 (2019). 
[2] Overstreet, C. et al. Effective inertial frame in an atom interferometric test of the equivalence principle. Phys. Rev. Lett. 120, 183604 (2018). 
[3] Asenbaum, P. et al. Phase Shift in an Atom Interferometer due to Spacetime Curvature across its Wave Function. Phys. Rev. Lett. 118, 183602 (2017). 
[4] Mitchell, J., Kovachy, T., Hahn, S., Adamson, P. & Chattopadhyay, S. MAGIS-100 Environmental Characterization and Noise Analysis. J. Inst. 17, E02001 (2022). 
[5] Badurina, L., Gibson, V., McCabe, C. & Mitchell, J. Ultralight dark matter searches at the sub-Hz frontier with atom multi-gradiometry. Preprint at https://doi.org/10.48550/arXiv.2211.01854 (2022). 
[6] Harms, J. Terrestrial gravity fluctuations. Living Rev Relativ 22, 6 (2019). 
[7] Schubert, C. et al. Scalable, symmetric atom interferometer for infrasound gravitational wave detection. Preprint at http://arxiv.org/abs/1909.01951 (2019). 
[8] Canuel, B. et al. MIGA: Combining laser and matter wave interferometry for mass distribution monitoring and advanced geodesy. arXiv:1604.02072 [gr-qc, physics:physics] 990008 (2016) doi:10.1117/12.2228825. 
[9] Abe, M. et al. Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100). Quantum Sci. Technol. 6, 044003 (2021). 
[10] Badurina, L. et al. AION: An Atom Interferometer Observatory and Network. J. Cosmol. Astropart. Phys. 2020, 011–011 (2020).

Monday 27 March

10:00 → 10:15 Check-in

10:15 → 10:45 Coffee Break

10:45 → 11:00 Welcome-Introduction

Speaker: Dr Jeremiah Mitchell

workshop introduction.pptx

11:00 → 13:00 Atom Interferometry

Convener: Dr Jeremiah Mitchell

11:00 Introduction to Cold Atoms and Atom Interferometry

Speaker: Timothy Kovachy (Northwestern University)

Kovachy_ES-AI-Workshop_2023.pptx

11:30 Cold Atom Technical Challenges

Speaker: Anna Marchant (Rutherford Appleton Laboratory)

Marchant_Cambridge.pdf

12:00 Gravitational Environment and Geodesy with VLBAI

Speaker: Dennis Schlippert (Leibniz Universität Hannover, Institut für Quantenoptik)

Cambridge_2023_online.pdf

13:00 → 14:00 Lunch

14:00 → 15:00 Atom Interferometry

Convener: Dr Jeremiah Mitchell

14:00 Very-long-baseline Atom Interferometers

Speaker: Dr Jeremiah Mitchell

vlbai networks.pptx

14:30 Quantum Sensors for Future Gravity Missions

Speaker: Waldemar Herr (Deutsches Zentrum für Luft- und Raumfahrt e. V. (DLR), Institut für Satellitengeodäsie und Inertialsensorik (SI))

2023_03_Cambridge_WH_v3.pdf

15:00 → 15:30 Earth Sciences

15:00 Introduction to Seismic Imaging

Speaker: Nick Rawlinson (University of Cambridge)

nick_talk.pdf

15:30 → 15:45 Coffee Break

15:45 → 17:45 Earth Sciences

15:45 Seismic Interferometry

Speaker: Kees Wapenaar (Delft University of Technology)

CambridgeWapenaar.pdf

16:15 Normal Mode Seismology

Speaker: David Al-Attar (University of Cambridge)

normal_mode_seismology.pdf

16:45 Seismic Instrumentation

Speaker: Mike Kendall (University of Oxford)

AI_cam_JMK210327.pptx

17:15 Introduction to Infrasound and Atmospheric Sensing

Speaker: Peter Näsholm (NORSAR and the University of Oslo)

2023-03-27_NASHOLM.pdf

19:00 → 21:00 Pub and Discussion

Tuesday 28 March

09:00 → 10:30 Breakout session 1: AI as Earth science instrument

Convener: Tom Kettlety (University of Oxford)

09:00 → 10:30 Breakout session 2: Earth sourced noise in AI

Convener: Dr Jeremiah Mitchell

10:30 → 11:00 Coffee Break

11:00 → 12:30 Breakout session 1

Convener: Tom Kettlety (University of Oxford)

11:00 → 12:30 Breakout session 2

Convener: Dr Jeremiah Mitchell

13:00 → 14:00 Lunch

14:00 → 15:30 Breakout session 1: Discussion

14:00 → 15:30 Breakout session 2: Discussion

15:00 → 15:45 Coffee Break

15:45 → 16:45 Breakout session summary

16:50 → 17:10 Boulby Underground Laboratory

Speaker: Sean Paling (STFC)

17:10 → 17:30 Callio Lab

Speaker: Julia Puputti (Calliolab)

17:30 → 18:00 Funding prospects

Speakers: Dave Newbold (STFC), Mike Kendall (University of Oxfor)

18:00 → 18:15 Close out

Speaker: Dr Jeremiah Mitchell

19:00 → 19:30 Close-out Reception

19:30 → 21:30 Workshop Formal Dinner

3 Course meal, Munro Room, Old SCR