| Kaiser |
1987 |
Clustering in real space and in redshift space |
Kaiser |
|
| Fisher |
1994 |
On the Validity of the Streaming Model for the Redshift-Space Correlation Function in the Linear Regime |
Streaming |
|
| Scoccimarro |
2004 |
Redshift-space distortions, pairwise velocities, and nonlinearities |
Scoccimarro |
|
| Tinker |
2006 |
Redshift-space distortions with the halo occupation distribution - II. Analytic model |
halo |
|
| Matsubara |
2008 |
Resumming cosmological perturbations via the Lagrangian picture: One-loop results in real space and in redshift space |
Matsubara |
|
| Taruya et al. |
2010 |
Baryon acoustic oscillations in 2D: Modeling redshift-space power spectrum from perturbation theory |
TNS Model |
|
| Seljak&McDonald |
2011 |
Distribution function approach to redshift space distortions |
Distribution Function Approach |
|
| Reid&White |
2011 |
Towards an accurate model of the redshift-space clustering of haloes in the quasi-linear regime |
Streaming Model |
Wang et al. 2014, CLPT-GSM |
| Zhang et al. |
2013 |
Peculiar velocity decomposition, redshift space distortion, and velocity reconstruction in redshift surveys: The methodology |
Velocity Decomposition Approach |
Zheng et al. 2013 |
| Bianchi et al. |
2014 |
Improving the modelling of redshift-space dis- tortions - I. A bivariate Gaussian description for the galaxy pairwise velocity distributions |
Streaming |
|
| Zheng&Song |
2016 |
Study on the mapping of dark matter clustering from real space to redshift space |
Advanced TNS |
Zheng et al 2019 |
| Kuruvilla |
2017 |
On the streaming model for redshift-space distortions |
Streaming |
|
| Lewandowski et al. |
2018 |
EFT of large scale structures in redshift space |
EFT |
|
| Vlaha&White |
2019 |
Exploring redshift-space distortions in large-scale structure |
Fourier Streaming Model |
Chen et al. 2019 |
| Cuesta-Lazaro et al. |
2020 |
Towards a non-Gaussian model of redshift space distortions |
Streaming |
|