Speeding up the detectability of the harmonic-space galaxy bispectrum
We present a method that allows us for the first time to estimate the signal-to-noise ratio (SNR) of the harmonic-space galaxy bispectrum induced by gravity, a complementary probe to already well established Fourier-space clustering analyses. We show how to do it considering only ∼1000 triangle conf...
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| Veröffentlicht in: | Journal of cosmology and astroparticle physics 2021-01, Vol.2021 (1), p.2-2 |
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| container_title | Journal of cosmology and astroparticle physics |
| container_volume | 2021 |
| creator | Montanari, Francesco Camera, Stefano |
| description | We present a method that allows us for the first time to estimate the signal-to-noise ratio (SNR) of the harmonic-space galaxy bispectrum induced by gravity, a complementary probe to already well established Fourier-space clustering analyses. We show how to do it considering only ∼1000 triangle configurations in multipole space, corresponding to a computational speedup of a factor (102)− (103), depending on the redshift bin, when including mildly non-linear scales. Assuming observational specifications consistent with forthcoming spectroscopic and photometric galaxy surveys like the \euc\ satellite and the Square Kilometre Array (phase 1), we show: that given a single redshift bin, spectroscopic surveys outperform photometric surveys; and that—due to shot-noise and redshift bin width balance—bins at redshifts z∼1 bring higher cumulative SNR than bins at lower redshifts z∼0.5. Our results for the largest cumulative SNR∼15 suggest that the harmonic-space bispectrum is detectable within narrow (Δz∼0.01) spectroscopic redshift bins even when including only mildly non-linear scales. Tomographic reconstructions and inclusion of highly non-linear scales will further boost detectability with upcoming galaxy surveys. In addition, we discuss how, using the Karhunen-Loève transform, a detection analysis only requires a 1×1 covariance matrix for a single redshift bin. |
| doi_str_mv | 10.1088/1475-7516/2021/01/002 |
| format | Article |
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We show how to do it considering only ∼1000 triangle configurations in multipole space, corresponding to a computational speedup of a factor (102)− (103), depending on the redshift bin, when including mildly non-linear scales. Assuming observational specifications consistent with forthcoming spectroscopic and photometric galaxy surveys like the \euc\ satellite and the Square Kilometre Array (phase 1), we show: that given a single redshift bin, spectroscopic surveys outperform photometric surveys; and that—due to shot-noise and redshift bin width balance—bins at redshifts z∼1 bring higher cumulative SNR than bins at lower redshifts z∼0.5. Our results for the largest cumulative SNR∼15 suggest that the harmonic-space bispectrum is detectable within narrow (Δz∼0.01) spectroscopic redshift bins even when including only mildly non-linear scales. Tomographic reconstructions and inclusion of highly non-linear scales will further boost detectability with upcoming galaxy surveys. 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| source | IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link |
| subjects | Bins Clustering Covariance matrix Galaxies Multipoles Photometry Polls & surveys Red shift Satellites Signal to noise ratio Spectroscopy |
| title | Speeding up the detectability of the harmonic-space galaxy bispectrum |
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