We present Wisconsin H-Alpha Mapper S II łambda6716 and H\alpha
spectroscopic maps of the warm ionized medium (WIM) in the Scutum-Centaurus Arm
at Galactic longitudes 310\deg < l < 345\deg. Using extinction-corrected
H\alpha intensities (IH\alphac), we measure an exponential scale height of
electron density-squared in the arm of H_ne^2 = 0.30 kpc (assuming a distance
of 3.5 kpc), intermediate between that observed in the inner Galaxy and in the
Perseus Arm. The S II/H\alpha line ratio is enhanced at large |z| and in
sightlines with faint IH\alphac. We find that the S II/H\alpha line ratio
has a power law relationship with IH\alphac from a value of ~=1.0 at
IH\alphac < 0.2 R (Rayleighs) to a value of ~=0.08 at IH\alphac >= 100 R.
The line ratio is better correlated with H\alpha intensity than with height
above the plane, indicating that the physical conditions within the WIM vary
systematically with electron density. We argue that the variation of the line
ratio with height is a consequence of the decrease of electron density with
height. Our results reinforce the well-established picture in which the diffuse
H\alpha emission is due primarily to emission from in situ photoionized gas,
with scattered light only a minor contributor.
Description
[1404.1930] Halpha and [S II] emission from warm ionized gas in the Scutum-Centaurus Arm
%0 Generic
%1 hill2014halpha
%A Hill, Alex S.
%A Benjamin, Robert A.
%A Haffner, L. Matthew
%A Gostisha, Martin
%A Barger, Kathleen A.
%D 2014
%K diffuse ionized medium
%T Halpha and S II emission from warm ionized gas in the Scutum-Centaurus
Arm
%U http://arxiv.org/abs/1404.1930
%X We present Wisconsin H-Alpha Mapper S II łambda6716 and H\alpha
spectroscopic maps of the warm ionized medium (WIM) in the Scutum-Centaurus Arm
at Galactic longitudes 310\deg < l < 345\deg. Using extinction-corrected
H\alpha intensities (IH\alphac), we measure an exponential scale height of
electron density-squared in the arm of H_ne^2 = 0.30 kpc (assuming a distance
of 3.5 kpc), intermediate between that observed in the inner Galaxy and in the
Perseus Arm. The S II/H\alpha line ratio is enhanced at large |z| and in
sightlines with faint IH\alphac. We find that the S II/H\alpha line ratio
has a power law relationship with IH\alphac from a value of ~=1.0 at
IH\alphac < 0.2 R (Rayleighs) to a value of ~=0.08 at IH\alphac >= 100 R.
The line ratio is better correlated with H\alpha intensity than with height
above the plane, indicating that the physical conditions within the WIM vary
systematically with electron density. We argue that the variation of the line
ratio with height is a consequence of the decrease of electron density with
height. Our results reinforce the well-established picture in which the diffuse
H\alpha emission is due primarily to emission from in situ photoionized gas,
with scattered light only a minor contributor.
@misc{hill2014halpha,
abstract = {We present Wisconsin H-Alpha Mapper [S II] {\lambda}6716 and H{\alpha}
spectroscopic maps of the warm ionized medium (WIM) in the Scutum-Centaurus Arm
at Galactic longitudes 310{\deg} < l < 345{\deg}. Using extinction-corrected
H{\alpha} intensities (IH{\alpha}c), we measure an exponential scale height of
electron density-squared in the arm of H_ne^2 = 0.30 kpc (assuming a distance
of 3.5 kpc), intermediate between that observed in the inner Galaxy and in the
Perseus Arm. The [S II]/H{\alpha} line ratio is enhanced at large |z| and in
sightlines with faint IH{\alpha}c. We find that the [S II]/H{\alpha} line ratio
has a power law relationship with IH{\alpha}c from a value of ~=1.0 at
IH{\alpha}c < 0.2 R (Rayleighs) to a value of ~=0.08 at IH{\alpha}c >= 100 R.
The line ratio is better correlated with H{\alpha} intensity than with height
above the plane, indicating that the physical conditions within the WIM vary
systematically with electron density. We argue that the variation of the line
ratio with height is a consequence of the decrease of electron density with
height. Our results reinforce the well-established picture in which the diffuse
H{\alpha} emission is due primarily to emission from in situ photoionized gas,
with scattered light only a minor contributor.},
added-at = {2014-04-09T09:33:14.000+0200},
author = {Hill, Alex S. and Benjamin, Robert A. and Haffner, L. Matthew and Gostisha, Martin and Barger, Kathleen A.},
biburl = {https://www.bibsonomy.org/bibtex/2dd3ed24b275c74fa25664575c101e3a4/miki},
description = {[1404.1930] Halpha and [S II] emission from warm ionized gas in the Scutum-Centaurus Arm},
interhash = {c698361176121af892c6a26ef0bfa00f},
intrahash = {dd3ed24b275c74fa25664575c101e3a4},
keywords = {diffuse ionized medium},
note = {cite arxiv:1404.1930Comment: ApJ in press. 8 pages in emulateapj format},
timestamp = {2014-04-09T09:33:14.000+0200},
title = {Halpha and [S II] emission from warm ionized gas in the Scutum-Centaurus
Arm},
url = {http://arxiv.org/abs/1404.1930},
year = 2014
}