[f(k)] Fwd: Bas Hensen: On-chip magnetic levitation and cooling for gravity mediated entanglement, in the physics colloquium on Friday the 4th November

Wed Nov 2 12:12:19 EET 2022

Kollokvio perjantaina! Laittakaas korvan taakse.
Yt. Antero Voutilainen
Jyväskylän Fyysikkokerho ry, pj

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Subject: Bas Hensen: On-chip magnetic levitation and cooling for gravity mediated entanglement, in the physics colloquium on Friday the 4th November
Resent-Date: Mon, 31 Oct 2022 16:38:07 +0200
Resent-From: jyflstaff at korppi.jyu.fi [mailto:jyflstaff at korppi.jyu.fi]
Date: Mon, 31 Oct 2022 16:38:03 +0200
From: Tero Tapio Heikkilä <tero.t.heikkila at jyu.fi> [mailto:tero.t.heikkila at jyu.fi]
To: jyflstaff at korppi.jyu.fi [mailto:jyflstaff at korppi.jyu.fi]

On Friday 4th November at 10 am in FYS1 and Zoom [https://jyufi.zoom.us/j/66703175507] (passcode 890524):
Bas Hensen, Leiden University

On-chip magnetic levitation and cooling for gravity mediated entanglement
Understanding the interface between quantum mechanics and general relativity is one of the key challenges of modern physics. What happens to the space-time metric when a massive particle is in a spatial superposition? Does it produce a superposition of metrics? Is there a way to experimentally verify this? I will discuss a recently proposed experimental protocol, based on ideas dating back to Feynman, that may provide an answer to these questions. I will present some of the challenges in realizing such an experiment, as well as my plans for building an experimental platform to address those challenges.
Welcome!

Coffee will be served in the lobby. You can also join via Zoom (with your own coffee). We will do our best to make sure that everyone is capable of listening to the talk and asking questions. However, we ask for some patience in case of small technical glitches.

The confirmed near-future colloquium talks are

11.11. Milica Todorovic (Turku) Computational materials engineering with active learning
2.12. Ferrucio Renzoni (UCL) Atomic magnetometry

Do you wish to suggest further topics for the colloquium? You can do so at Café JYFL [https://eur03.safelinks.protection.outlook.com/ap/w-59584e83/?url=https%3A%2F%2Fjyu.sharepoint.com%2F%3Aw%3A%2Fr%2Fsites%2FCafJYFLDepartmentofPhysics%2FJaetut%2520asiakirjat%2FGeneral%2FPhysics%2520colloquium%2520ideas.docx%3Fd%3Dw888a107ea28543c7a9bc331f12a99995%26csf%3D1%26web%3D1%26e%3Dr5iubT&amp;data=05%7C01%7C%7C365e9566a59a4ce0886f08dabb4dcf1a%7Ce9662d58caa44bc1b138c8b1acab5a11%7C1%7C0%7C638028240106296382%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C3000%7C%7C%7C&amp;sdata=mko%2B%2BBaoFApI78DFH2whvElnhvXq5Bw0YsEUuu6kbq8%3D&amp;reserved=0]. There are still a couple of open slots (and budget) for the fall, and much more so for the spring, so suggestions are welcome.
-- Tero Heikkilä Professor, Department of Physics University of Jyväskylä
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