Presentation is loading. Please wait.

Presentation is loading. Please wait.

9 ½ empirical Lyα relationships Jeff Cooke. 1. UV continuum reddening, β parameter 2. ISM absorption line width/strength 3. Outflows and HI column density/covering.

Published byBethanie Norman Modified over 9 years ago

Similar presentations

Presentation on theme: "9 ½ empirical Lyα relationships Jeff Cooke. 1. UV continuum reddening, β parameter 2. ISM absorption line width/strength 3. Outflows and HI column density/covering."— Presentation transcript:

1 9 ½ empirical Lyα relationships Jeff Cooke

2 1. UV continuum reddening, β parameter 2. ISM absorption line width/strength 3. Outflows and HI column density/covering fraction 4. Morphology 5. Luminosity 5.5 Kinematics 6 Escaping ionizing photons 7 Small-scale environment/interactions 8 Dark matter halo mass (HOD) 9 Large-scale spatial distribution (anti-correlation) 9.5 Morphology - density relation Intrinsic and extrinsic empirical Lyα relationships 9 ½ empirical Lyα relationships

3 aLBGeLBG 1: Relationship with UV continuum slope (β parameter) Lyα and spectral properties Shapley+ (2003)

4 aLBGeLBG Lyα and spectral properties 2: Relationship with ISM line strength 1: Relationship with UV continuum slope (β parameter) Shapley+ (2003)

5 aLBGeLBG Lyα and spectral properties Shapley+ (2003) 2: Relationship with ISM line strength 3: Relationship with outflows and/or H I column density 1: Relationship with UV continuum slope (β parameter)

6 HST imaging ~1.5” (~10kpc) aLBGeLBG 4: Relationship with morphology (restframe UV and optical) Lyα and morphology Law+ 2007, 2012a, 2012b

7 Cooke (2009) aLBGs and eLBGs naturally segregate on the CMD eLBGs aLBGs spectroscopicaLBGsspectroscopiceLBGsphotometricLBGs Steidel et al. (2003) z~3 data set: ~2,500 LBGs, ~800 spectra Lyα and the CMD 5: Relationship with luminosity

8 eLBGs aLBGs spectroscopicaLBGsspectroscopiceLBGs contours denote photometric LBGs CFHTLS Deep Fields z~3 data set: ~55,000 LBGs, ~200 Keck spectra Cooke+ (2013) Lyα and the CMD 5: Relationship with luminosity

9 Lyα and kinematics Wiggle-z data z ~ 1.5 Disks Dispersiondominated 5.5: Potential relationship with internal kinematics Emily Wisnioski and the Wiggle-z team

10 0% Lyα and ionizing photon escape fraction 6: Potential relationship with the fraction of escaping ionizing photons Cooke+ (2014) Observed fraction of ionising photons Observed ionizing photon fraction = (< 912Å photons) / (1500Å photons)

11 Lyα and small-scale environment Cooke+ (2010)

12 Lyα and small-scale environment Separation (kpc) 7: Relationship with pair separation – interaction indicator Cooke + (2010)

13 Lyα and environment

14 eLBGs aLBGs spectroscopicaLBGsspectroscopiceLBGs contours denote photometric LBGs CFHTLS Deep Fields z~3 data set: ~55,000 LBGs, ~200 Keck spectra Lyα and the CMD Cooke+ (2013)

15 Full LBG auto-correlation≈55,000galaxies * scaled to z ≈ 3 Lyα and large-scale environment Cooke+ (2013)

16 aLBGauto-correlation Lyα and large-scale environment Cooke+ (2013)

17 eLBGauto-correlation Lyα and large-scale environment 8: Relationship with parent DM halo mass, HOD

18 a/eLBGcross-correlation Lyα and large-scale environment Cooke+ (2013)

19 Cooke, Omori, Ryan-Weber (2013) a/eLBGcross-correlation Lyα and large-scale environment 9: Relationship with spatial distribution Cooke+ (2013)

20 Lyα and large-scale environment Cooke+ (2013)

21 SDSS DR7 correlation functions Wang, Brunner, & Dolence (2013) (-22.5) (-21.5) (-20.5) (-19.5) Lyα and large-scale environment

22

23 Here: radii of 2 – 4 Mpc h 70 -1 Lyα and large-scale environment

24 Here: radii of 2 – 4 Mpc h 70 -1 Lyα and large-scale environment Cooke+ (2013)

25 Here: radii of 2 – 4 Mpc h 70 -1 Lyα and large-scale environment Cooke+ (2013)

26 eLBG aLBG Lyα and large-scale environment 9 ½: Potential relationship with large-scale environment i.e., the morphology-density relation at high redshift

27 Intrinsic and extrinsic empirical Lyα relationships summary 1. UV continuum reddening, β parameter 2. ISM absorption line width/strength 3. Outflows and HI column density/covering fraction 4. Morphology 5. Luminosity 5.5 Kinematics 6 Escaping ionizing photons 7 Small-scale environment/interactions 8 Dark matter halo mass (HOD) 9 Large-scale spatial distribution (anti-correlation) 9.5 Morphology - density relation

28 a/eLBGcross-correlation Lyα and large-scale environment Cooke+ (2013)

29 gLBGauto-correlation Lyα and large-scale environment g/eLBGcross-correlation g/aLBGcross-correlation Cooke+ (2013)

Download ppt "9 ½ empirical Lyα relationships Jeff Cooke. 1. UV continuum reddening, β parameter 2. ISM absorption line width/strength 3. Outflows and HI column density/covering."

Similar presentations

Current Topics: Lyman Break Galaxies - Lecture 2 Current Topics Lyman Break Galaxies Dr Elizabeth Stanway

Current Topics: Lyman Break Galaxies - Lecture 2 Current Topics Lyman Break Galaxies Dr Elizabeth Stanway
L. Pentericci A.Grazian, A. Fontana (INAF-ROME) ( paper will appear on astroph in the next few days) HEIDELBERG 08/10/2008.

L. Pentericci A.Grazian, A. Fontana (INAF-ROME) ( paper will appear on astroph in the next few days) HEIDELBERG 08/10/2008.
Metals at Highish Redshift And Large Scale Structures From DLAs to Underdense Regions Patrick Petitjean Institut d’Astrophysique de Paris B. Aracil R.

Metals at Highish Redshift And Large Scale Structures From DLAs to Underdense Regions Patrick Petitjean Institut d’Astrophysique de Paris B. Aracil R.
The properties of AGN host galaxies: Any clues for AGN feedback? Knud Jahnke, MPIA GEMS team (Chien, Hans- Walter, Klaus, Rachel + 15) COSMOS team (Eva,

The properties of AGN host galaxies: Any clues for AGN feedback? Knud Jahnke, MPIA GEMS team (Chien, Hans- Walter, Klaus, Rachel + 15) COSMOS team (Eva,
Digging into the past: Galaxies at redshift z=10 Ioana Duţan.

Digging into the past: Galaxies at redshift z=10 Ioana Duţan.
X Y i M82 Blue: Chandra Red: Spitzer Green & Orange: Hubble Face-on i = 0 Edge-on i = 90 Absorption-line probes of the prevalence and properties of outflows.

X Y i M82 Blue: Chandra Red: Spitzer Green & Orange: Hubble Face-on i = 0 Edge-on i = 90 Absorption-line probes of the prevalence and properties of outflows.
University of Durham Astronomical Instrumentation Group ELT Science Case, Oxford, 28.04.03 Report on work done for NIO GSMT book Simon Morris With Cedric.

University of Durham Astronomical Instrumentation Group ELT Science Case, Oxford, Report on work done for NIO GSMT book Simon Morris With Cedric.
Mrk334: is a connection between nucleus activity and merging of a companion? Smirnova A.A., Moiseev A.V., Afanasiev V.L. Special Astrophysical Observatory.

Mrk334: is a connection between nucleus activity and merging of a companion? Smirnova A.A., Moiseev A.V., Afanasiev V.L. Special Astrophysical Observatory.
Mapping HI absorption at z=0.026 against a resolved background CSO Andy Biggs, Martin Zwaan, Jochen Liske European Southern Observatory Frank Briggs Australian.

Mapping HI absorption at z=0.026 against a resolved background CSO Andy Biggs, Martin Zwaan, Jochen Liske European Southern Observatory Frank Briggs Australian.
Collaborators: F. Bian, Z. Cai, B. Clement, S.H. Cohen, R. Dave, E. Egami, X. Fan, K. Finlator, N. Kashikawa, H.B. Krug, I.D. McGreer, M. Mechtley, M.

Collaborators: F. Bian, Z. Cai, B. Clement, S.H. Cohen, R. Dave, E. Egami, X. Fan, K. Finlator, N. Kashikawa, H.B. Krug, I.D. McGreer, M. Mechtley, M.
A Study of the Abundances and Lyα Emission of Ultraviolet Selected Samples of Star Forming Galaxies in the Local Universe Ryan Mallery (Ph.D. thesis),

A Study of the Abundances and Lyα Emission of Ultraviolet Selected Samples of Star Forming Galaxies in the Local Universe Ryan Mallery (Ph.D. thesis),
9/19/2014 Claus Leitherer: Lyman Continuum Leakage 1 Lyman Continuum Leakage in the Local Universe Claus Sanch Tim Janice Sally Roderik Leitherer Borthakur.

9/19/2014 Claus Leitherer: Lyman Continuum Leakage 1 Lyman Continuum Leakage in the Local Universe Claus Sanch Tim Janice Sally Roderik Leitherer Borthakur.
The Lyman Continuum Escape Fraction Harry Teplitz, Brian Siana, & Claudia Scarlata.

The Lyman Continuum Escape Fraction Harry Teplitz, Brian Siana, & Claudia Scarlata.
Collaborators: E. Egami, X. Fan, S. Cohen, R. Dave, K. Finlator, N. Kashikawa, M. Mechtley, K. Shimasaku, and R. Windhorst.

Collaborators: E. Egami, X. Fan, S. Cohen, R. Dave, K. Finlator, N. Kashikawa, M. Mechtley, K. Shimasaku, and R. Windhorst.
September 6—10 2004Starburst 2004 at the Institute of Astronomy, Cambridge Constraints on Lyman continuum flux escaping from galaxies at z~3 using VLT.

September 6— Starburst 2004 at the Institute of Astronomy, Cambridge Constraints on Lyman continuum flux escaping from galaxies at z~3 using VLT.
Primeval Starbursting Galaxies: Presentation of “Lyman-Break Galaxies” by Mauro Giavalisco Jean P. Walker Rutgers University.

Primeval Starbursting Galaxies: Presentation of “Lyman-Break Galaxies” by Mauro Giavalisco Jean P. Walker Rutgers University.
Star formation at high redshift (2 < z < 7) Methods for deriving star formation rates UV continuum = ionizing photons (dust obscuration?) Ly  = ionizing.

Star formation at high redshift (2 < z < 7) Methods for deriving star formation rates UV continuum = ionizing photons (dust obscuration?) Ly  = ionizing.
Rand (2000) NGC 5775 Hα map. D = 24.8 Mpc It is an interacting galaxy.

Rand (2000) NGC 5775 Hα map. D = 24.8 Mpc It is an interacting galaxy.
Simona Gallerani Constraining cosmic reionization models with QSOs, GRBs and LAEs observational data In collaboration with: A. Ferrara, X. Fan, T. Choudhury,

Simona Gallerani Constraining cosmic reionization models with QSOs, GRBs and LAEs observational data In collaboration with: A. Ferrara, X. Fan, T. Choudhury,
High Redshift Galaxies (Ever Increasing Numbers).

High Redshift Galaxies (Ever Increasing Numbers).

Similar presentations

Ads by Google