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Full-Text Articles in Astrophysics and Astronomy
He I Λ10830 As A Probe Of Winds In Accreting Young Stars, Suzan Edwards, William Fischer, John Kwan, L. Hillenbrand, Andrea K. Dupree
He I Λ10830 As A Probe Of Winds In Accreting Young Stars, Suzan Edwards, William Fischer, John Kwan, L. Hillenbrand, Andrea K. Dupree
Astronomy: Faculty Publications
He I 10830 profiles acquired with Keck's NIRSPEC for six young low-mass stars with high disk accretion rates (AS 353A, DG Tau, DL Tau, DR Tau, HL Tau, and SVS 13) provide new insight into accretion-driven winds. In four of the stars, the profiles have the signature of resonance scattering, and they possess a deep and broad blueshifted absorption that penetrates more than 50% into the 1 m continuum over a continuous range of velocities from near the stellar rest velocity to the terminal velocity of the wind, unlike inner wind signatures seen in other spectral features. This deep and …
Galaxies At Z = 3 Around Damped Ly-Α Clouds, N. Bouché, James D. Lowenthal
Galaxies At Z = 3 Around Damped Ly-Α Clouds, N. Bouché, James D. Lowenthal
Astronomy: Faculty Publications
We are exploring the connection between Damped Ly-α Absorption systems and Lyman Break Galaxies using deep m (5σ)=26 m - broad band imaging (UBVI) of four wide fields (0.25deg each) obtained at the Kitt Peak 4-m telescope with MOSAIC. Each field contains a DLA at z ∼ 3. We want to address the nature of DLA at high-redshifts: (1) Are the DLAs embedded in much larger systems of galaxies? (2) How does the spatial distribution of emitters in 3D (space and redshift) correlate with the absorber? Contrary to most previous DLA studies, we are not looking for the absorber, and …
Clustering Of Galaxies At Z ∼ 3 Around The Probable Damped Lyα Absorber Toward Qso Apm 08279+5255, Nicolas Bouché, James D. Lowenthal
Clustering Of Galaxies At Z ∼ 3 Around The Probable Damped Lyα Absorber Toward Qso Apm 08279+5255, Nicolas Bouché, James D. Lowenthal
Astronomy: Faculty Publications
We present results on the clustering of Lyman break galaxies (LBGs) around a probable damped Lyα absorption line cloud (DLA) at z = 2.974 from deep UBVI images of the field containing the quasar APM 08279+5255 (z = 3.91). The large area covered by our images, 0.31 deg or ∼40 × 40 Mpc comoving at redshift z = 3, and their depth, μ (sky) ≃ 27.6 mag arcsec , allow us to identify ∼450 LBG candidates brighter than I = 24.80 at 2. 75 < z < 3.25 both close (50 kpc) to the DLA line of sight and up to 20 Mpc (comoving) from the DLA, i.e., physically unrelated. LBG candidates were identified using photometric redshift techniques that include the I magnitude as a prior estimate in addition to the colors. The two are combined using Bayes's theorem. This helps to break the degeneracies that occur in a pure spectral template fitting scheme. The overall rms is σ ≃ 0.15 at z ∼ 3 based on our analysis of photometric redshifts in the HDF-N. From the redshift likelihood distributions, we selected LBG galaxies within a redshift slice of width W = 0.15(≃ σ ) centered on the redshift of the DLA z . Within that redshift slice, we find an enhancement of galaxies near the DLA using both the surface density (Σ/Σ ≃ 3) and an estimator of the three-dimensional spatial overdensity (n/n̄ ∼ 5 ± 3). The surface overdensity Σ/Σ is significant at the more than 95% significance level on scales 2.5 < r < 5 Mpc comoving. The overdensity cannot be related to the QSO environment since the QSO is at z = 3.91. These results imply that some DLA could reside in high-density regions. We search within 45″ from the line of sight for galaxies responsible for the DLA and find one candidate with Z = 3.03 that is 26″ (145 kpc physical) away. From its magnitude I = 24.65 ± 0.2, its luminosity is M = -21.35. Due to its large impact parameter, however, this galaxy is not a likely candidate for the absorber. abs em I,AB AB z z z abs g g g θ em phot I,AB 2 -2