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Literature DB >> 33568823

A quantum enhanced search for dark matter axions.

K M Backes¹, D A Palken^2,3, S Al Kenany⁴, B M Brubaker^2,3, S B Cahn⁵, A Droster⁴, Gene C Hilton⁶, Sumita Ghosh⁵, H Jackson⁴, S K Lamoreaux⁵, A F Leder⁴, K W Lehnert^2,3,6, S M Lewis⁴, M Malnou^2,6, R H Maruyama⁵, N M Rapidis⁴, M Simanovskaia⁴, Sukhman Singh⁵, D H Speller⁵, I Urdinaran⁴, Leila R Vale⁶, E C van Assendelft⁵, K van Bibber⁴, H Wang⁵.

Abstract

The manipulation of quantum states of light1 holds the potential to enhance searches for fundamental physics. Only recently has the maturation of quantum squeezing technology coincided with the emergence of fundamental physics searches that are limited by quantum uncertainty2,3. In particular, the quantum chromodynamics axion provides a possible solution to two of the greatest outstanding problems in fundamental physics: the strong-CP (charge-parity) problem of quantum chromodynamics4 and the unknown nature of dark matter5-7. In dark matter axion searches, quantum uncertainty manifests as a fundamental noise source, limiting the measurement of the quadrature observables used for detection. Few dark matter searches have approached this limit3,8, and until now none has exceeded it. Here we use vacuum squeezing to circumvent the quantum limit in a search for dark matter. By preparing a microwave-frequency electromagnetic field in a squeezed state and near-noiselessly reading out only the squeezed quadrature9, we double the search rate for axions over a mass range favoured by some recent theoretical projections10,11. We find no evidence of dark matter within the axion rest energy windows of 16.96-17.12 and 17.14-17.28 microelectronvolts. Breaking through the quantum limit invites an era of fundamental physics searches in which noise reduction techniques yield unbounded benefit compared with the diminishing returns of approaching the quantum limit.

Year: 2021 PMID： 33568823 DOI： 10.1038/s41586-021-03226-7

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

10 in total

1. Observation of squeezed states generated by four-wave mixing in an optical cavity.

Authors:
Journal: Phys Rev Lett Date: 1985-11-25 Impact factor: 9.161

2. Resonantly detecting axion-mediated forces with nuclear magnetic resonance.

Authors: Asimina Arvanitaki; Andrew A Geraci
Journal: Phys Rev Lett Date: 2014-10-14 Impact factor: 9.161

3. First Results from ABRACADABRA-10 cm: A Search for Sub-μeV Axion Dark Matter.

Authors: Jonathan L Ouellet; Chiara P Salemi; Joshua W Foster; Reyco Henning; Zachary Bogorad; Janet M Conrad; Joseph A Formaggio; Yonatan Kahn; Joe Minervini; Alexey Radovinsky; Nicholas L Rodd; Benjamin R Safdi; Jesse Thaler; Daniel Winklehner; Lindley Winslow
Journal: Phys Rev Lett Date: 2019-03-29 Impact factor: 9.161

4. Characterization of the HAYSTAC axion dark matter search cavity using microwave measurement and simulation techniques.

Authors: Nicholas M Rapidis; Samantha M Lewis; Karl A van Bibber
Journal: Rev Sci Instrum Date: 2019-02 Impact factor: 1.523

5. First Results from a Microwave Cavity Axion Search at 24 μeV.

Authors: B M Brubaker; L Zhong; Y V Gurevich; S B Cahn; S K Lamoreaux; M Simanovskaia; J R Root; S M Lewis; S Al Kenany; K M Backes; I Urdinaran; N M Rapidis; T M Shokair; K A van Bibber; D A Palken; M Malnou; W F Kindel; M A Anil; K W Lehnert; G Carosi
Journal: Phys Rev Lett Date: 2017-02-09 Impact factor: 9.161

Review 6. A new era in the search for dark matter.

Authors: Gianfranco Bertone; Tim M P Tait
Journal: Nature Date: 2018-10-03 Impact factor: 49.962

7. Axion Dark Matter Search around 6.7 μeV.

Authors: S Lee; S Ahn; J Choi; B R Ko; Y K Semertzidis
Journal: Phys Rev Lett Date: 2020-03-13 Impact factor: 9.161

8. Extended Search for the Invisible Axion with the Axion Dark Matter Experiment.

Authors: T Braine; R Cervantes; N Crisosto; N Du; S Kimes; L J Rosenberg; G Rybka; J Yang; D Bowring; A S Chou; R Khatiwada; A Sonnenschein; W Wester; G Carosi; N Woollett; L D Duffy; R Bradley; C Boutan; M Jones; B H LaRoque; N S Oblath; M S Taubman; J Clarke; A Dove; A Eddins; S R O'Kelley; S Nawaz; I Siddiqi; N Stevenson; A Agrawal; A V Dixit; J R Gleason; S Jois; P Sikivie; J A Solomon; N S Sullivan; D B Tanner; E Lentz; E J Daw; J H Buckley; P M Harrington; E A Henriksen; K W Murch
Journal: Phys Rev Lett Date: 2020-03-13 Impact factor: 9.161

9. Quantum-Enhanced Advanced LIGO Detectors in the Era of Gravitational-Wave Astronomy.

Authors: M Tse; Haocun Yu; N Kijbunchoo; A Fernandez-Galiana; P Dupej; L Barsotti; C D Blair; D D Brown; S E Dwyer; A Effler; M Evans; P Fritschel; V V Frolov; A C Green; G L Mansell; F Matichard; N Mavalvala; D E McClelland; L McCuller; T McRae; J Miller; A Mullavey; E Oelker; I Y Phinney; D Sigg; B J J Slagmolen; T Vo; R L Ward; C Whittle; R Abbott; C Adams; R X Adhikari; A Ananyeva; S Appert; K Arai; J S Areeda; Y Asali; S M Aston; C Austin; A M Baer; M Ball; S W Ballmer; S Banagiri; D Barker; J Bartlett; B K Berger; J Betzwieser; D Bhattacharjee; G Billingsley; S Biscans; R M Blair; N Bode; P Booker; R Bork; A Bramley; A F Brooks; A Buikema; C Cahillane; K C Cannon; X Chen; A A Ciobanu; F Clara; S J Cooper; K R Corley; S T Countryman; P B Covas; D C Coyne; L E H Datrier; D Davis; C Di Fronzo; J C Driggers; T Etzel; T M Evans; J Feicht; P Fulda; M Fyffe; J A Giaime; K D Giardina; P Godwin; E Goetz; S Gras; C Gray; R Gray; Anchal Gupta; E K Gustafson; R Gustafson; J Hanks; J Hanson; T Hardwick; R K Hasskew; M C Heintze; A F Helmling-Cornell; N A Holland; J D Jones; S Kandhasamy; S Karki; M Kasprzack; K Kawabe; P J King; J S Kissel; Rahul Kumar; M Landry; B B Lane; B Lantz; M Laxen; Y K Lecoeuche; J Leviton; J Liu; M Lormand; A P Lundgren; R Macas; M MacInnis; D M Macleod; S Márka; Z Márka; D V Martynov; K Mason; T J Massinger; R McCarthy; S McCormick; J McIver; G Mendell; K Merfeld; E L Merilh; F Meylahn; T Mistry; R Mittleman; G Moreno; C M Mow-Lowry; S Mozzon; T J N Nelson; P Nguyen; L K Nuttall; J Oberling; R J Oram; B O'Reilly; C Osthelder; D J Ottaway; H Overmier; J R Palamos; W Parker; E Payne; A Pele; C J Perez; M Pirello; H Radkins; K E Ramirez; J W Richardson; K Riles; N A Robertson; J G Rollins; C L Romel; J H Romie; M P Ross; K Ryan; T Sadecki; E J Sanchez; L E Sanchez; T R Saravanan; R L Savage; D Schaetzl; R Schnabel; R M S Schofield; E Schwartz; D Sellers; T J Shaffer; J R Smith; S Soni; B Sorazu; A P Spencer; K A Strain; L Sun; M J Szczepańczyk; M Thomas; P Thomas; K A Thorne; K Toland; C I Torrie; G Traylor; A L Urban; G Vajente; G Valdes; D C Vander-Hyde; P J Veitch; K Venkateswara; G Venugopalan; A D Viets; C Vorvick; M Wade; J Warner; B Weaver; R Weiss; B Willke; C C Wipf; L Xiao; H Yamamoto; M J Yap; Hang Yu; L Zhang; M E Zucker; J Zweizig
Journal: Phys Rev Lett Date: 2019-12-06 Impact factor: 9.161

10. Early-Universe Simulations of the Cosmological Axion.

Authors: Malte Buschmann; Joshua W Foster; Benjamin R Safdi
Journal: Phys Rev Lett Date: 2020-04-24 Impact factor: 9.161

10 in total

7 in total

1. Direct search for dark matter axions excluding ALP cogenesis in the 63- to 67-μeV range with the ORGAN experiment.

Authors: Aaron Quiskamp; Ben T McAllister; Paul Altin; Eugene N Ivanov; Maxim Goryachev; Michael E Tobar
Journal: Sci Adv Date: 2022-07-06 Impact factor: 14.957

2. Search for Dark Matter Axions with CAST-CAPP.

Authors: C M Adair; K Altenmüller; V Anastassopoulos; S Arguedas Cuendis; J Baier; K Barth; A Belov; D Bozicevic; H Bräuninger; G Cantatore; F Caspers; J F Castel; S A Çetin; W Chung; H Choi; J Choi; T Dafni; M Davenport; A Dermenev; K Desch; B Döbrich; H Fischer; W Funk; J Galan; A Gardikiotis; S Gninenko; J Golm; M D Hasinoff; D H H Hoffmann; D Díez Ibáñez; I G Irastorza; K Jakovčić; J Kaminski; M Karuza; C Krieger; Ç Kutlu; B Lakić; J M Laurent; J Lee; S Lee; G Luzón; C Malbrunot; C Margalejo; M Maroudas; L Miceli; H Mirallas; L Obis; A Özbey; K Özbozduman; M J Pivovaroff; M Rosu; J Ruz; E Ruiz-Chóliz; S Schmidt; M Schumann; Y K Semertzidis; S K Solanki; L Stewart; I Tsagris; T Vafeiadis; J K Vogel; M Vretenar; S Youn; K Zioutas
Journal: Nat Commun Date: 2022-10-19 Impact factor: 17.694

Review 3. Axion dark matter: How to see it?

Authors: Yannis K Semertzidis; SungWoo Youn
Journal: Sci Adv Date: 2022-02-23 Impact factor: 14.136