2017
DOI: 10.1038/s41550-017-0143
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Differential neutrino condensation onto cosmic structure

Abstract: Astrophysical techniques have pioneered the discovery of neutrino mass properties. Current cosmological observations give an upper bound on neutrino masses by attempting to disentangle the small neutrino contribution from the sum of all matter using precise theoretical models. We discover the differential neutrino condensation effect in our TianNu N -body simulation. Neutrino masses can be inferred using this effect by comparing galaxy properties in regions of the universe with different neutrino relative abun… Show more

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Cited by 36 publications
(33 citation statements)
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“…The TianNu simulated the cosmic density field with 2:97 Â 10 12 particles in a 1:2h À1 Gpc box which included the effects of massive neutrinos. The base simulation contained 6912 3 CDM particles, and at z ¼ 5 a new set of 13824 3 particles representing M m ¼ 0:05eV neutrinos were added with which subtle differences between CDM and neutrinos were studied (Inman et al 2015;Yu et al 2017a).…”
Section: State-of-the-art Simulationsmentioning
confidence: 99%
“…The TianNu simulated the cosmic density field with 2:97 Â 10 12 particles in a 1:2h À1 Gpc box which included the effects of massive neutrinos. The base simulation contained 6912 3 CDM particles, and at z ¼ 5 a new set of 13824 3 particles representing M m ¼ 0:05eV neutrinos were added with which subtle differences between CDM and neutrinos were studied (Inman et al 2015;Yu et al 2017a).…”
Section: State-of-the-art Simulationsmentioning
confidence: 99%
“…Due to using fixed-point compression, CUBE has significantly smaller bpp than any other cosmological N -body simulation codes. For example, TianNu [2] simulates 2.97 trillion particles on Tianhe-2. Each Tianhe-2 node holds an average of 576 3 neutrino particles and 288 3 CDM particles, and uses 40GB memory.…”
Section: Performance Resultsmentioning
confidence: 99%
“…Another example is the study of neutrino mass using cosmological effects. To model small but nonlinear cosmic neutrino background, we need a large N to suppress the Poisson noise (e.g., [2]). These problems need a dynamical range of 4 to 5 orders of magnitude, corresponding to, at least, 10 12 (trillion) particle N -body simulations.…”
Section: Problem Overviewmentioning
confidence: 99%
See 1 more Smart Citation
“…Specifically, we adopt a pair of high-resolution N-body simulations (i.e., TianZero with Σm ν = 0 eV and TianNu with Σm ν = 0.05 eV [65]) realized using publicly-available code, CUBEP3M [66], for resolving the subtle neutrino effects between neutrinos and CDM, especially on non-linear scale [67,68]. CUBEP3M here is optimized using hybrid-…”
Section: N-body Simulationsmentioning
confidence: 99%