UoN_Primary_Logo_RGB.png

Publications

Publications (also via NASA ADS) that have used the Sherwood simulation suite:

  1. Testing the effect of galactic feedback on the IGM at z~6 with metal-line absorbers
    Keating L.C., Puchwein E., Haehnelt M.G., Bird S., Bolton J.S.,
    2016, MNRAS, 461, 606

  2. Models of the cosmological 21 cm signal from the epoch of reionization calibrated with Lyman-alpha and CMB data
    Kulkarni G., Choudhury T.R., Puchwein E., Haehnelt M.G.,
    2016, MNRAS, 463, 2583

  3. The Sherwood simulation suite: overview and data comparisons with the Lyman-alpha forest at redshifts 2<z<5
    Bolton J.S., Puchwein E., Sijacki D., Haehnelt M.G., Kim T.-S., Meiksin A., Regan J.A., Viel M.,
    2017, MNRAS, 464, 897

  4. Exploring the thermal state of the low density intergalactic medium at z=3 with an ultra-high signal-to-noise QSO spectrum
    Rorai A., Becker G.D., Haehnelt M.G., Carswell R.F., Bolton J.S., Cristiani S., D'Odorico V., Cupani G., Barai P., Calura F., Kim T.-S., Pomante E., Tescari E., Viel M.,
    2017, MNRAS, 466, 2690

  5. Large scale opacity fluctuations in the Lyman alpha forest: evidence for QSOs dominating the ionising UV background at z=5.5-6?
    Chardin J., Puchwein E., Haehnelt M.G.,
    2017, MNRAS, 465, 3429

  6. The Lyman-alpha forest power spectrum from the XQ-100 Legacy Survey
    Irsǐč V., Viel M., Berg T.A.M., D'Odorico V., Haehnelt M.G., Cristiani S., Cupani G., Kim T.-S., Lopez S., Ellison S., Becker G.D., Christensen L., Denney K.D., Worseck G., Bolton J.S.,
    2017, MNRAS, 466, 4332

  7. Diagnosing galactic feedback with line broadening in the low redshift Lyman-alpha forest
    Viel M., Haehnelt M.G., Bolton J.S., Kim T.-S., Puchwein E., Nasir F., Wakker B.P.,
    2017, MNRAS, 467, 86

  8. Gas around galaxy haloes - III: hydrogen absorption signatures around galaxies and QSOs in the Sherwood simulation suite
    Meiksin A., Bolton J.S., Puchwein E.,
    2017, MNRAS, 468, 1893

  9. Observations of the Lyman series forest towards the redshift 7.1 quasar ULAS J1120+0641
    Barnett R., Warren S.J., Becker G.D., Mortlock D.J., Hewett P.C., McMahon R.G., Simpson C., Venemans B.P.,
    2017, A&A, 601, 16

  10. The cross-correlation between 21cm intensity mapping maps and the Lyman-alpha forest in the post-reionization era
    Carucci I.P., Villaescusa-Navarro F., Viel M.,
    2017, JCAP, 04, 001

  11. Large 21 cm signals from AGN-dominated reionization
    Kulkarni G., Choudhury T.R., Puchwein E., Haehnelt M.G.,
    2017, MNRAS, 469, 4238

  12. The effect of stellar and AGN feedback on the low redshift Lyman-alpha forest in the Sherwood simulation suite
    Nasir F., Bolton J.S., Viel M., Kim T.-S., Haehnelt M.G., Puchwein E., Sijacki D.,
    2017, MNRAS, 471, 1056

  13. Absorber model: the halo-like model for the Lyman-alpha forest
    Irsǐč V., McQuinn M.
    2018, JCAP, 04, 026

  14. New constraints on Lyman-alpha opacity with a sample of 62 quasars at z > 5.7
    Bosman S.E.I., Fan X., Jiang L., Reed S.L., Matsuoka Y., Becker G.D., Haehnelt M.G.
    2018, MNRAS, 479, 1055

  15. Lyman-alpha emitters gone missing: the different evolution of the bright and faint populations
    Weinberger L.H., Kulkarni G., Haehnelt M.G., Choudhury T.R., Puchwein E.,
    2018, MNRAS, 479, 2564

  16. Revealing reionization with the thermal history of the intergalactic medium: new constraints from the Lyman-alpha flux power spectrum
    Boera E., Becker G.D., Bolton J.S., Nasir F.,
    2019, ApJ, 872, 101

  17. Modelling the observed luminosity function and clustering evolution of Lyman-alpha emitters: growing evidence for late reionization
    Weinberger L.H., Haehnelt M.G., Kulkarni G.,
    2019, MNRAS, 485, 1350

  18. Predictions and sensitivity forecasts for reionization-era [C II] line intensity mapping
    Dumitru S., Kulkarni G., Lagache G., Haehnelt M.G.,
    2019, MNRAS, 485, 3486

  19. Large Lyman-alpha opacity fluctuations and low CMB optical depth in models of late reionization with large islands of neutral hydrogen extending to z<5.5
    Kulkarni G., Keating L.C., Haehnelt M.G., Bosman S.E.I, Puchwein E., Chardin J., Aubert D.,
    2019, MNRAS, 485, L24

  20. Searching for the shadows of giants: characterising protoclusters with line of sight Lyman-alpha absorption
    Miller J.S.A., Bolton J.S., Hatch N.,
    2019, MNRAS, 489, 5381

  21. Long troughs in the Lyman-alpha forest below redshift 6 due to islands of neutral hydrogen
    Keating, L.C., Weinberger L.H., Kulkarni G., Haehnelt M.G., Chardin J., Aubert D.,
    2020, MNRAS, 491, 1736

  22. Probing the thermal state of the intergalactic medium at z>5 with the transmission spikes in high-resolution Lyman-alpha forest spectra
    Gaikwad P., Rauch M., Haehnelt M.G., Puchwein E., Bolton J.S., Keating L.C., Kulkarni G., Irsǐč V., Banados E., Becker G.D., Boera E., Zahedy F.S., Chen H.-W., Carswell R.F., Chardin J., Rorai A.,
    2020, MNRAS, 494, 5091

  23. Constraining the second half of reionization with the Lyman-beta forest
    Keating L.C., Kulkarni G., Haehnelt M.G., Chardin J., Aubert D.,
    2020, MNRAS, 497, 906

  24. Modelling intergalactic low ionisation metal absorption line systems near the epoch of reionization
    Suarez T., Meiksin A.,
    2021, MNRAS, 502, 888

  25. Prospects for observing the cosmic web in Lyman-alpha emission
    Witstok J., Puchwein E., Kulkarni G., Smit R., Haehnelt M.G.,
    2021, A&A, 650, 98

  26. The correlation of high-redshift galaxies with the thermal Sunyaev-Zel'dovich effect traces reionization
    Baxter E.J., Weinberger L., Haehnelt M.G., Irsǐč V., Kulkarni G., Pandey S., Roy A.,
    2021, MNRAS, 501, 6215

  27. The detectability of strong 21 centimetre forest absorbers from the diffuse intergalactic medium in late reionisation models
    Šoltinský T., Bolton J.S., Hatch N., Haehnelt M.G., Keating L.C., Kulkarni G., Puchwein E., Chardin J., Aubert D.,
    2021, MNRAS, 506, 5818

  28. Reionization and galaxy inference from the high-redshift Lyman-alpha forest
    Qin Y., Mesinger A., Bosman S.E.I., Viel M.,
    2021, MNRAS, 506, 2390

  29. A consistent and robust measurement of the thermal state of the IGM at 2≤z≤4 from a large sample of Lyman-alpha forest spectra: evidence for late and rapid HeII reionization
    Gaikwad P., Raghunathan S., Haehnelt M.G., Choudhury T.R.,
    2021, MNRAS, 506, 4389

  30. The mean free path of ionizing photons at 5 < z < 6: evidence for rapid evolution near reionization
    Becker G.D., D'Aloisio A., Christenson H.M., Zhu Y., Worseck G., Bolton J.S.,
    2021, MNRAS, 508, 1853

  31. Chasing the Tail of Cosmic Reionization with Dark Gap Statistics in the Lyα Forest over 5 < z < 6
    Zhu Y., Becker G.D., Bosman S.E.I., Keating L.C., Christenson H.M., Bañados E., Bian F., Davies F.B., D'Odorico V., Eilers A.-C., Fan X., Haehnelt M.G., Kulkarni G., Pallottini A., Qin Y., Wang F., Yang J.
    2021, ApJ, 923, 223

  32. A measurement of the Lyman-beta forest power spectrum and its cross with the Lyman-alpha forest in X-Shooter XQ-100
    Wilson B., Irsǐč V., McQuinn M.,
    2022, MNRAS, 509, 2423

  33. Measurement of redshift space two- and three-point correlation of Lyman-alpha absorbers at 1.7 < z < 3.5: implications on evolution of the physical properties of IGM
    Maitra S., Raghunathan S., Gaikwad P.,
    2022, MNRAS, 509, 4585

  34. Constraining blazar heating with the 2 < z < 3 Lyman-alpha forest
    Lamberts A., Puchwein E., Pfrommer C., Chang P., Shalaby M., Broderick A., Tiede P., Rudie G.,
    2022, MNRAS, 512, 3045

  35. Long dark gaps in the Ly-beta forest at z<6: evidence of ultra-late reionization from XQR-30 spectra
    Zhu Y., Becker G.D., Bosman S.E.I., Keating L.C., D'Odorico V., Davies R.L., Christenson H.M., Bañados E., Bian F., Bischetti M., Chen H., Davies F.B., Eilers A.-C., Fan X., Gaikwad P., Greig B., Haehnelt M.G., Kulkarni G., Lai S., Pallottini A., Qin Y., Ryan-Weber E., Walter F., Wang F., Yang J.,
    2022, ApJ, 932, 76

  36. Hydrogen reionisation ends by z=5.3: Lyman-alpha optical depth measured by the XQR-30 sample
    Bosman S.E.I., Davies F.B., Becker G.D., Keating L.C., Davies R.L., Zhu Y., Eilers A.-C., D'Odorico V., Bian F., Bischetti M., Cristiani S.V., Fan X., Farina E.P., Haehnelt M.G., Kulkarni G., Mesinger A., Meyer R.A., Onoue M., Pallottini A., Qin Y., Ryan-Weber E., Schindler J.-T., Walter F., Wang F., Yang J.,
    2022, MNRAS, 514, 55

  37. Non-linearities in the Lyman-alpha forest and in its cross-correlation with dark matter halos
    Givans, J.J., Font-Ribera A., Slosar A., Seeyave L., Pedersen C., Rogers K.K., Garny M., Blas D., Irsic V.,
    2022, JCAP, 09, 070

  38. Lognormal semi-numerical simulations of the Lyman-alpha forest: comparison with full hydrodynamic simulations
    Arya B., Choudhury T.R., Paranjape A., Gaikwad P.,
    2023, MNRAS, 520, 4023

  39. The need for obscured supermassive black hole growth to explain quasar proximity zones in the epoch of reionization
    Satyavolu, S., Kulkarni G., Keating L.C., Haehnelt M.G.,
    2023, MNRAS, 521, 3108

  40. Role of ionizing background on the statistics of metal absorbers in hydrodynamical simulations
    Mallik S., Srianand R., Maitra S., Gaikwad P., Kahndai N.,
    2023, MNRAS, 523, 2296

  41. Measuring the photo-ionization rate, neutral fraction and mean free path of HI ionizing photons at 4.9 < z < 6.0 from a large sample of X-Shooter and ESI spectra
    Gaikwad P., Haehnelt M.G., Davies F.B., Bosman S.E.I., Molaro M., Kulkarni G., D'Odorico V., Becker G.D., Davies R.L., Nasir F., Bolton J.S., Keating L.C., Iršič V., Puchwein E., Zhu Y., Asthana S., Yang, J., Lai S., Eilers A.-C.,
    2023, MNRAS, 525, 4093

  42. Probing ultra-late reionization: direct measurements of the mean free path over 5 < z < 6
    Zhu Y., Becker G.D., Christenson H.M., D'Aloisio A., Bosman S.E.I., Bakx T., D'Odorico V., Bischetti M., Cain C., Davies F.B., Davies R.L., Eilers A.-C., Fan X., Gaikwad P., Haehnelt M.G., Keating L.C., Kulkarni G., Lai S., Ma H.-X., Mesinger A., Qin Y., Satyavolu S., Takeuchi T.T., Umehata H., Yang J.,
    2023, ApJ, 955, 115

  43. Role of ionizing background on the non-thermal broadening inferred for the aligned absorbers
    Mallik S., Srianand R.,
    2024, MNRAS, 528, 3844

  44. Lyman-alpha forest power spectrum in effective field theory
    Ivanov, M.M.,
    2024, PRD, 109, 023507

  45. Role of ionizing background and galactic feedback on the redshift space clustering of OVI absorbers in hydrodynamical simulations
    Maitra S., Mallik S., Srianand R.,
    2024, MNRAS, 530, 3013

  46. A modified lognormal approximation of the Lyman-alpha forest: comparison with full hydrodynamic simulations at 2 < z < 2.7
    Arya B., Choudhury T.R., Paranjape A., Gaikwad P.,
    2024, JCAP, 04, 063

  47. Covariance matrices for the Lyman-alpha forest using the lognormal approximation
    Arya B., Paranjape A., Choudhury T.R.,
    2024, JCAP, 04, 066

  48. Robustness of direct measurements of the mean free path of ionizing photons in the epoch of reionization
    Satyavolu S., Kulkarni G., Keating L.C., Haehnelt M.G.,
    2024, MNRAS, 533, 676

  49. Damping wing absorption associated with a giant Lyman-alpha trough at z<6: direct evidence for late-ending reionization
    Becker G.D., Bolton J.S., Zhu Y., Hashemi S.,
    2024, MNRAS, 533, 1524

  50. Fundamental physics with the Lyman-alpha forest: constraints on the growth of structure and neutrino masses from SDSS with effective field theory
    Ivanov M.M., Toomey M.W., Karacayli, N.G.,
    2024, arXiv:2405.13208