Primordial Non-Gaussianity

Meerburg P. Daniel,Green Daniel,Abidi Muntazir,Amin Mustafa A.,Adshead Peter,Ahmed Zeeshan,Alonso David,Ansarinejad Behzad,Armstrong Robert,Avila Santiago,Baccigalupi Carlo,Baldauf Tobias,Ballardini Mario,Bandura Kevin,Bartolo Nicola,Battaglia Nicholas,Baumann Daniel,Bavdhankar Chetan,Bernal José Luis,Beutler Florian,Biagetti Matteo,Bischoff Colin,Blazek Jonathan,Bond J. Richard,Borrill Julian,Bouchet François R.,Bull Philip,Burgess Cliff,Byrnes Christian,Calabrese Erminia,Carlstrom John E.,Castorina Emanuele,Challinor Anthony,Chang Tzu-Ching,Chaves-Montero Jonas,Chen Xingang,Yeche Christophe,Cooray Asantha,Coulton William,Crawford Thomas, Chisari Elisa,Cyr-Racine Francis-Yan,D'Amico Guido, de Bernardis Paolo,de la Macorra Axel,Doré Olivier,Duivenvoorden Adri,Dunkley Joanna,Dvorkin Cora,Eggemeier Alexander,Escoffier Stephanie,Essinger-Hileman Tom,Fasiello Matteo,Ferraro Simone,Flauger Raphael,Font-Ribera Andreu,Foreman Simon,Friedrich Oliver,Garcia-Bellido Juan,Gerbino Martina,Gluscevic Vera,Goon Garrett,Gorski Krzysztof M.,Gudmundsson Jon E.,Gupta Nikhel,Hanany Shaul,Handley Will,Hawken Adam J.,Hill J. Colin,Hirata Christopher M.,Hložek Renée,Holder Gilbert,Huterer Dragan,Kamionkowski Marc,Karkare Kirit S., Keeley Ryan E.,Kinney William,Kisner Theodore,Kneib Jean-Paul,Knox Lloyd,Koushiappas Savvas M.,Kovetz Ely D.,Koyama Kazuya,L'Huillier Benjamin,Lahav Ofer,Lattanzi Massimiliano,Lee Hayden,Liguori Michele,Loverde Marilena,Madhavacheril Mathew,Maldacena Juan,Marsh M. C. David,Masui Kiyoshi,Matarrese Sabino,McAllister Liam,McMahon Jeff,McQuinn Matthew,Meyers Joel,Mirbabayi Mehrdad,Dizgah Azadeh Moradinezhad,Motloch Pavel,Mukherjee Suvodip,Muñoz Julian B.,Myers Adam D.,Nagy Johanna, Naselsky Pavel,Nati Federico, Newburgh,Nicolis Alberto,Niemack Michael D.,Niz Gustavo,Nomerotski Andrei,Page Lyman,Pajer Enrico,Padmanabhan Hamsa,Palma Gonzalo A.,Peiris Hiranya V.,Percival Will J.,Piacentni Francesco,Pimentel Guilherme L.,Pogosian Levon, Prescod-Weinstein Chanda,Pryke Clement,Puglisi Giuseppe,Racine Benjamin,Stompor Radek,Raveri Marco,Remazeilles Mathieu, Rocha Gracca,Ross Ashley J.,Rossi Graziano,Ruhl John,Sasaki Misao,Schaan Emmanuel,Schillaci Alessandro,Schmittfull Marcel,Sehgal Neelima,Senatore Leonardo,Seo Hee-Jong,Shan Huanyuan,Shandera Sarah,Sherwin Blake D.,Silverstein Eva,Simon Sara,Slosar Anže,Staggs Suzanne,Starkman Glenn, Stebbins Albert,Suzuki Aritoki,Switzer Eric R.,Timbie Peter,Tolley Andrew J.,Tomasi Maurizio,Tristram Matthieu,Trodden Mark,Tsai Yu-Dai,Uhlemann Cora,Umilta Caterina,van Engelen Alexander, Vargas-Magaña M.,Vieregg Abigail,Wallisch Benjamin,Wands David,Wandelt Benjamin,Wang Yi,Watson Scott,Wise Mark, Wu W. L. K.,Xianyu Zhong-Zhi,Xu Weishuang,Yasini Siavash,Young Sam,Yutong Duan,Zaldarriaga Matias,Zemcov Michael,Zhao Gong-Bo,Zheng Yi,Zhu Ningfeng

arxiv（2019）

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摘要

Our current understanding of the Universe is established through the pristine measurements of structure in the cosmic microwave background (CMB) and the distribution and shapes of galaxies tracing the large scale structure (LSS) of the Universe. One key ingredient that underlies cosmological observables is that the field that sources the observed structure is assumed to be initially Gaussian with high precision. Nevertheless, a minimal deviation from Gaussianityis perhaps the most robust theoretical prediction of models that explain the observed Universe; itis necessarily present even in the simplest scenarios. In addition, most inflationary models produce far higher levels of non-Gaussianity. Since non-Gaussianity directly probes the dynamics in the early Universe, a detection would present a monumental discovery in cosmology, providing clues about physics at energy scales as high as the GUT scale.

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