%0 Generic %1 pontzen2014scaledependent %A Pontzen, Andrew %D 2014 %K bao bias dependent igm scale %T Scale-dependent bias in the BAO-scale intergalactic neutral hydrogen %U http://arxiv.org/abs/1402.0506 %X I discuss fluctuations in the neutral hydrogen (HI) density of the z~2.3 intergalactic medium and show that their relation to cosmic overdensity is strongly scale-dependent. This behaviour arises from a linearized version of the well-known "proximity effect", in which bright sources suppress atomic hydrogen density. Using a novel, systematic and detailed linear-theory radiative transfer calculation, I demonstrate how HI density consequently anti-correlates with total matter density when averaged on scales exceeding the Lyman-limit mean-free-path. The radiative transfer thumbprint is highly distinctive and should be measurable in the Lyman-alpha forest. Effects extend to sufficiently small scales to generate significant distortion of the correlation function shape around the baryon acoustic oscillation peak, although the peak location shifts only by 1.2 percent for a mean source bias of b_j=3. The distortion changes significantly with b_j and other astrophysical parameters; measuring it should provide a helpful observational constraint on the nature of ionizing photon sources in the near future.

@misc{pontzen2014scaledependent, abstract = {I discuss fluctuations in the neutral hydrogen (HI) density of the z~2.3 intergalactic medium and show that their relation to cosmic overdensity is strongly scale-dependent. This behaviour arises from a linearized version of the well-known "proximity effect", in which bright sources suppress atomic hydrogen density. Using a novel, systematic and detailed linear-theory radiative transfer calculation, I demonstrate how HI density consequently anti-correlates with total matter density when averaged on scales exceeding the Lyman-limit mean-free-path. The radiative transfer thumbprint is highly distinctive and should be measurable in the Lyman-alpha forest. Effects extend to sufficiently small scales to generate significant distortion of the correlation function shape around the baryon acoustic oscillation peak, although the peak location shifts only by 1.2 percent for a mean source bias of b_j=3. The distortion changes significantly with b_j and other astrophysical parameters; measuring it should provide a helpful observational constraint on the nature of ionizing photon sources in the near future.}, added-at = {2014-02-05T10:08:25.000+0100}, author = {Pontzen, Andrew}, biburl = {https://www.bibsonomy.org/bibtex/26a7c341a949131321f1a9200df077141/miki}, description = {[1402.0506] Scale-dependent bias in the BAO-scale intergalactic neutral hydrogen}, interhash = {96d1a68afc20192b45a52b3ee6a2e09d}, intrahash = {6a7c341a949131321f1a9200df077141}, keywords = {bao bias dependent igm scale}, note = {cite arxiv:1402.0506Comment: 12 pages, 6 figures (plus appendices), submitted to PRD}, timestamp = {2014-02-05T10:08:38.000+0100}, title = {Scale-dependent bias in the BAO-scale intergalactic neutral hydrogen}, url = {http://arxiv.org/abs/1402.0506}, year = 2014 }