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Interpreting The Unresolved Intensity Of Cosmologically Redshifted Line Radiation.

机译：解释宇宙学红移辐射的未解析强度。

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Intensity mapping experiments survey the spectrum of diffuse line radiation rather than detect individual objects at high signal-to-noise ratio. Spectral maps of unresolved atomic and molecular line radiation contain three-dimensional information about the density and environments of emitting gas and efficiently probe cosmological volumes out to high redshift. Intensity mapping survey volumes also contain all other sources of radiation at the frequencies of interest. Continuum foregrounds are typically approximately 10(sup 2)-10(Sup 3) times brighter than the cosmological signal. The instrumental response to bright foregrounds will produce new spectral degrees of freedom that are not known in advance, nor necessarily spectrally smooth. The intrinsic spectra of fore-grounds may also not be well known in advance. We describe a general class of quadratic estimators to analyze data from single-dish intensity mapping experiments and determine contaminated spectral modes from the data themselves. The key attribute of foregrounds is not that they are spectrally smooth, but instead that they have fewer bright spectral degrees of freedom than the cosmological signal. Spurious correlations between the signal and foregrounds produce additional bias. Compensation for signal attenuation must estimate and correct this bias. A successful intensity mapping experiment will control instrumental systematics that spread variance into new modes, and it must observe a large enough volume that contaminant modes can be determined independently from the signal on scales of interest.

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Switzer, E. R.; Chang, T.; Masui, K. W.; Pen, U.; Voytek, T. C.;
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年度 2016
页码 1-20
总页数 20
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Diffuse radiation; Cosmology; Red shift; Emission spectra; Spectra; Surveys; Statistical analysis; Nuclear radiation;

机译：漫射辐射;宇宙学;红移;发射光谱;光谱;调查;统计分析;核辐射;
入库时间 2022-08-29 10:46:13

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1. INTERPRETING THE UNRESOLVED INTENSITY OF COSMOLOGICALLY REDSHIFTED LINE RADIATION [J] . E. R. Switzer1, T.-C. Chang2, K. W. Masui34, The Astrophysical journal . 2015,第1期

机译：解释宇宙变红线辐射的不可分辨的强度
2. Redshifted HI 21-cm Signal from the Post-Reionization Epoch: Cross-Correlations with Other Cosmological Probes [J] . Sarkar T. Guha, Datta K. K., Pal A. K., Journal of Astrophysics and Astronomy . 2016,第4期

机译：后电离时代的红移HI 21厘米信号：与其他宇宙学探针的互相关
3. Redshifted HI 21-cm Signal from the Post-Reionization Epoch: Cross-Correlations with Other Cosmological Probes [J] . A. K. Pal, K. K. Datta, S. Bharadwaj, Journal of astrophysics and astronomy . 2016,第4期

机译：后电离时代的红移HI 21厘米信号：与其他宇宙学探针的互相关
4. Discrimination between cosmological and stellar phenomena by the intensity interferometry [C] . P. B. Lerner, N. M. Miskovsky, P. H. Cutler Conference on Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and Applications . 2021

机译：强度干涉测量学用宇宙学和恒星现象的歧视
5. High Precision Cosmology with the Cosmic Background Radiation. [D] . Farhang, Marzieh. 2013

机译：具有宇宙本底辐射的高精度宇宙学。
6. MR signal intensity of the optic radiation. [O] . M Kitajima, Y Korogi, M Takahashi, 1996

机译：光学辐射的MR信号强度。
7. Constraining the redshifted 21-cm signal with the unresolved soft X-ray background [O] . Anastasia Fialkov, Aviad Cohen, Rennan Barkana, 2016

机译：利用未解析的软X射线背景约束红移21-cm信号

Interpreting The Unresolved Intensity Of Cosmologically Redshifted Line Radiation.

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