[1] Tsai et al., JCAP (2023), JCAP (2024), https://t.co/pGmtfI0JQY [2] Tsai, Eby, Safronova, Nature Astronomy (2023), https://t.co/x8aR1XR0su
RT @YuDai_Tsai: @doescience @UCIrvine @UDelaware @Fermilab Here is the freely accessible version of our paper, published in Nature Astronom…
@doescience @UCIrvine @UDelaware @Fermilab Here is the freely accessible version of our paper, published in Nature Astronomy https://t.co/a4No13wrHm
@enriqueseguraca Yes, very related to the research at @CUBoulder @JILAscience https://t.co/a4No13wrHm https://t.co/22X8RnaeZp
@nrcwetenschap @dorineschenk Hi @dorineschenk, I have responded to your email. Thank you very much for reaching out to us and for your interest in our work. https://t.co/a4No13eite
@physorg_com @np_grwl @NatureAstronomy Thank you very much for sharing our paper. https://t.co/a4No13eite
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
@inspirehep @NatureAstronomy Thank you! The free-to-share version can be found here: https://t.co/a4No13eite
Direct detection of ultralight dark matter bound to the Sun with space sensors https://t.co/9Vpe0Q6EQa
RT @YuDai_Tsai: Please find the free version of this article here: https://t.co/a4No13wrHm
RT @NaturePortfolio: A @NatureAstronomy paper proposes placing quantum sensors, such as atomic clocks, into the inner Solar system to dete…
RT @YuDai_Tsai: Please find the free version of this article here: https://t.co/a4No13wrHm
RT @JunxueZhao: @YuDai_Tsai Proud of you! https://t.co/CdBIwIq5QL
@YuDai_Tsai Proud of you! https://t.co/CdBIwIq5QL
RT @NaturePortfolio: A @NatureAstronomy paper proposes placing quantum sensors, such as atomic clocks, into the inner Solar system to dete…
RT @NaturePortfolio: A @NatureAstronomy paper proposes placing quantum sensors, such as atomic clocks, into the inner Solar system to dete…
RT @NaturePortfolio: A @NatureAstronomy paper proposes placing quantum sensors, such as atomic clocks, into the inner Solar system to dete…
RT @NaturePortfolio: A @NatureAstronomy paper proposes placing quantum sensors, such as atomic clocks, into the inner Solar system to dete…
A @NatureAstronomy paper proposes placing quantum sensors, such as atomic clocks, into the inner Solar system to detect ultralight dark matter bound by the mass of the Sun. https://t.co/E48S1I003c https://t.co/fAlmoQqa2G
Direct detection of ultralight dark matter bound to the Sun with space sensors https://t.co/T1XkoP0hlT #news #technology #TechnologyNews #infosec #cybersecurity #hacking
Direct detection of ultralight dark matter bound to the Sun with space sensors: https://t.co/ye276iJkzB Comments: https://t.co/1FEzZcTuXn
Direct detection of ultralight dark matter bound to the Sun with space sensors https://t.co/ZSnbU6eblP
Direct detection of ultralight dark matter bound to the Sun with space sensors L: https://t.co/SYecvOCcMb C: https://t.co/UU40s0oRvX
RT @NatureAstronomy: Tsai, Eby & Safronova show that space quantum sensors can probe an unexplored parameter space of ultralight dark matte…
RT @YuDai_Tsai: Please find the free version of this article here: https://t.co/a4No13wrHm
Direct detection of ultralight dark matter bound to the Sun with space quantum sensors | Nature Astronomy https://t.co/1XGx6UQ7Yg
RT @YuDai_Tsai: Please find the free version of this article here: https://t.co/a4No13wrHm
@jbprime @NatureAstronomy @UCIPhysAstro Thank you very much for sharing the article! https://t.co/a4No13eite
Thank you for sharing! Also, thank @beckyferreira for the great coverage of our paper: https://t.co/a4No13eite Also, see the UD press release https://t.co/ki2VoTRiZS @UDResearch @UDelaware @udcas @UDphysics @UDengineering @UCIrvine @UCIPhysSci @ipmu_sup
RT @CienciaDelCope: Físicos sostienen que los relojes atómicos espaciales podrían ayudar a descubrir la naturaleza de la materia oscura. ht…
RT @YuDai_Tsai: Please find the free version of this article here: https://t.co/a4No13wrHm
RT @YuDai_Tsai: Please find the free version of this article here: https://t.co/a4No13wrHm
Direct detection of ultralight dark matter bound to the Sun with space [ https://t.co/14wxo5Gx8x ], g ] are the dimensionless couplings of ULDM to electrons, photons and gluons, Satellite-based entanglement distribution over 1200 kilometers. https://t.co/S
RT @YuDai_Tsai: Feel free to share the free version of the paper with this link: https://t.co/a4No13wrHm @jmgeventhorizon @beckyferreira @…
RT @CienciaDelCope: Físicos sostienen que los relojes atómicos espaciales podrían ayudar a descubrir la naturaleza de la materia oscura. ht…
#SpaceQ - Direct Detection of Ultralight# DarkMatter with Space #Quantum Sensors: https://t.co/66RPSa0v9V -> Researchers say space #atomicclocks could help uncover the nature of dark matter: https://t.co/CkooSuexS9
https://t.co/0KNCCbIbma "... where the reduced Planck's constant ℏ and the speed of light c are ... on the coupling with cutoff scale Λ = 3 TeV and the boundary of..."
RT @CienciaDelCope: Físicos sostienen que los relojes atómicos espaciales podrían ayudar a descubrir la naturaleza de la materia oscura. ht…
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
Please find the free version of this article here: https://t.co/a4No13wrHm
@UDResearch @udcas @NatureAstronomy Feel free to share the free version of our paper with this link: https://t.co/a4No13wrHm
RT @CienciaDelCope: Físicos sostienen que los relojes atómicos espaciales podrían ayudar a descubrir la naturaleza de la materia oscura. ht…
Feel free to share the free version of the paper with this link: https://t.co/a4No13wrHm @jmgeventhorizon @beckyferreira @UCIrvineGD @UCIPhysSci @ipmu_supporter @KavliIPMU @UDResearch @UDelaware @UDengineering @UDphysics @ParkerSunProbe @DeepSpaceSimian @
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
RT @CienciaDelCope: Físicos sostienen que los relojes atómicos espaciales podrían ayudar a descubrir la naturaleza de la materia oscura. ht…
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
Físicos sostienen que los relojes atómicos espaciales podrían ayudar a descubrir la naturaleza de la materia oscura. https://t.co/ddqHGkE0cR https://t.co/ioiGGeplCp
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
RT @physorg_com: Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE…
Researchers say space #atomicclocks could help uncover the nature of #darkmatter @NatureAstronomy https://t.co/MwrKWYA7dE https://t.co/HXS6t2s3Q4
RT @YuDai_Tsai: Our paper is now available here Nature. com Feel free to share the free version using this link: https://t.co/a4No13wrHm
Our paper is now available here Nature. com Feel free to share the free version using this link: https://t.co/a4No13wrHm
RT @NatureAstronomy: Tsai, Eby & Safronova show that space quantum sensors can probe an unexplored parameter space of ultralight dark matte…
Tsai, Eby & Safronova show that space quantum sensors can probe an unexplored parameter space of ultralight dark matter, covering theoretical relaxion targets motivated by naturalness and Higgs mixing. https://t.co/nyeuqxxUOa https://t.co/eOWEAFVI8c
RT @YuDai_Tsai: The talk is largely based on https://t.co/x8aR1XyRem & https://t.co/ZkKqTLCywA In addition, I will share the experience of…
The talk is largely based on https://t.co/x8aR1XyRem and https://t.co/ZkKqTLCywA (both under review by Nature Astronomy).
The talk is largely based on https://t.co/x8aR1XyRem & https://t.co/ZkKqTLCywA In addition, I will share the experience of overcoming invisible disabilities and initiating conversations regarding mental health and neurodiversity in Academia.
@YuDai_Tsai @ProfJohnBeacom Check out the abstract! https://t.co/qubTi1jBuh
@ProfJohnBeacom Awesome. Hope to chat more with you on that. We are thinking about putting new detectors and quantum sensors on future solar probes to study other fundamental physics topics, e.g., https://t.co/m2vCqLEc4B, and one can probably place a small
RT @YuDai_Tsai: Thank you very much for sharing @UCIrvineGD! For people who are interested, this is the paper I talked about: https://t.co/…
RT @YuDai_Tsai: Thank you very much for sharing @UCIrvineGD! For people who are interested, this is the paper I talked about: https://t.co/…
RT @YuDai_Tsai: Thank you very much for sharing @UCIrvineGD! For people who are interested, this is the paper I talked about: https://t.co/…
RT @YuDai_Tsai: Thank you very much for sharing @UCIrvineGD! For people who are interested, this is the paper I talked about: https://t.co/…
Thank you very much for sharing @UCIrvineGD! For people who are interested, this is the paper I talked about: https://t.co/ZkKqTLCywA And this is another closely related paper: https://t.co/x8aR1XyRem And here is the video: https://t.co/u27luJ0gGC (53K vie
SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph] CROSS LISTED) https://t.co/0xnFWSYzcZ #science #feedly
RT @higgsinocat: SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph] CROSS LISTED…
RT @higgsinocat: SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph] CROSS LISTED…
RT @higgsinocat: SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph] CROSS LISTED…
SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph] CROSS LISTED) relevance:100% https://t.co/lumq4ba2iF #darkmatter @dai_tsai (fig picked by authors) https://t.co/NfZRqmT08A
SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph] CROSS LISTED) https://t.co/q5qnqdV6IT
RT @higgsinocat: SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph]) relevance:1…
RT @higgsinocat: SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph]) relevance:1…
@higgsinocat I changed my Twitter handle :)
Congratulations. It’s a fascinating paper and joke!!
RT @YuDai_Tsai: @DrBrianKeating Are you Keating? (It took me 2+ weeks to think of a comeback joke) Thank you for your invitation again! Ou…
@DrBrianKeating Are you Keating? (It took me 2+ weeks to think of a comeback joke) Thank you for your invitation again! Our new paper is out: https://t.co/x8aR1XyRem
SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors. (arXiv:2112.07674v1 [hep-ph]) relevance:100% https://t.co/lumq4ba2iF #darkmatter @dai_tsai (fig picked by authors) https://t.co/caDaeakzrG
@NASASun In our new paper, we propose to place quantum clocks near the Parker Solar Probe orbits to study dark matter: https://t.co/x8aR1XyRem
@coreyspowell @malcfairbairn Our new paper is hoping to one-day place quantum clocks (atomic, molecular, or nuclear clocks) in orbits close to that of the Parker Solar Probe to study dark matter!: https://t.co/x8aR1XyRem
[2112.07674] Yu-Dai Tsai, Joshua Eby, Marianna S. Safronova: SpaceQ -- Direct Detection of Ultralight Dark Matter with Space Quantum Sensors https://t.co/UaHBv1LBKt https://t.co/tkWBPHFN74
@YuDai_Tsai Check out the abstract! https://t.co/qubTi1j3EJ
We emailed our paper to Dr. Phyllis Whittlesey, who is a primary Instrument Scientist on Parker Solar Probe, and she thinks our concept is "super cool"!! https://t.co/m2vCqLEc4B
Recent advances in quantum sensors, including atomic clocks, enable searches for a broad range of dark matter candidates. The question of the dark matter distribution in the Solar system critically affects the reach of dark matter direct detection experime
New paper with Josh Eby and Marianna Safronova: https://t.co/x8aR1XyRem "SpaceQ - Direct Detection of Ultralight Dark Matter with Space Quantum Sensors"