His main research concerns Astrophysics, Galaxy, Astronomy, Space Telescope Imaging Spectrograph and Line. His Astrophysics study combines topics from a wide range of disciplines, such as Spectral line, Emission spectrum and Absorption spectroscopy. His Emission spectrum research integrates issues from Luminosity and Absorption.
The various areas that Steven B. Kraemer examines in his Galaxy study include Doubly ionized oxygen and Radial velocity. His Space Telescope Imaging Spectrograph research incorporates elements of Wavelength, Wavelength range, Angular resolution and Sky. His study in Line is interdisciplinary in nature, drawing from both Line-of-sight and Hubble sequence.
Steven B. Kraemer spends much of his time researching Astrophysics, Galaxy, Spectral line, Astronomy and Emission spectrum. The concepts of his Astrophysics study are interwoven with issues in Ionization and Photoionization. He works mostly in the field of Galaxy, limiting it down to concerns involving Absorption and, occasionally, Continuum.
Steven B. Kraemer combines subjects such as Spectroscopy, Redshift, Torus and Opacity with his study of Spectral line. Astronomy is often connected to Wavelength in his work. His Emission spectrum research focuses on subjects like Luminosity, which are linked to Radius.
Steven B. Kraemer mainly investigates Astrophysics, Galaxy, Active galactic nucleus, Ionization and Emission spectrum. The study incorporates disciplines such as Spectral line, Spectroscopy and Astronomy in addition to Astrophysics. His work is dedicated to discovering how Spectral line, Magnetohydrodynamics are connected with Accretion and other disciplines.
The Galaxy study combines topics in areas such as Doubly ionized oxygen and Photoionization. His Active galactic nucleus study incorporates themes from Lambda and Bulge. His Emission spectrum research is multidisciplinary, relying on both Spectral energy distribution, Quasar and Absorption spectroscopy.
Astrophysics, Galaxy, Active galactic nucleus, Emission spectrum and Ionization are his primary areas of study. His Astrophysics research incorporates themes from Spectroscopy and Astronomy. His Galaxy research includes elements of Spectral line and X-ray.
His work deals with themes such as Doubly ionized oxygen and Bulge, which intersect with Active galactic nucleus. Steven B. Kraemer usually deals with Ionization and limits it to topics linked to Absorption spectroscopy and Absorption. Steven B. Kraemer has researched Space Telescope Imaging Spectrograph in several fields, including Extinction, Lambda, Absorption and Light emission.
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Mass Loss from the Nuclei of Active Galaxies
D. Michael Crenshaw;Steven B. Kraemer;Ian M. George.
Annual Review of Astronomy and Astrophysics (2003)
Intrinsic Absorption Lines in Seyfert 1 Galaxies. I. Ultraviolet Spectra from the Hubble Space Telescope
D. Michael Crenshaw;Steven B. Kraemer;Albert Boggess;Stephen P. Maran.
The Astrophysical Journal (1999)
The Space Telescope Imaging Spectrograph Design
B. E. Woodgate;R. A. Kimble;C. W. Bowers;S. Kraemer.
Publications of the Astronomical Society of the Pacific (1998)
The ionized gas and nuclear environment in NGC 3783. I. Time-averaged 900 kilosecond Chandra grating spectroscopy
Shai Kaspi;Shai Kaspi;W. N. Brandt;Ian M. George;Ian M. George;Hagai Netzer.
The Astrophysical Journal (2002)
The On-Orbit Performance of the Space Telescope Imaging Spectrograph
R. A. Kimble;B. E. Woodgate;C. W. Bowers;S. B. Kraemer;S. B. Kraemer.
The Astrophysical Journal (1998)
DETERMINING INCLINATIONS OF ACTIVE GALACTIC NUCLEI VIA THEIR NARROW-LINE REGION KINEMATICS. I. OBSERVATIONAL RESULTS*
T. C. Fischer;D. M. Crenshaw;S. B. Kraemer;H. R. Schmitt.
Astrophysical Journal Supplement Series (2013)
The Ionized Gas and Nuclear Environment in NGC 3783. IV. Variability and Modeling of the 900 Kilosecond Chandra Spectrum
Hagai Netzer;Shai Kaspi;Ehud Behar;W. N. Brandt.
The Astrophysical Journal (2003)
Resolved Spectroscopy of the Narrow-Line Region in NGC 1068: Kinematics of the Ionized Gas
D. M. Crenshaw;S. B. Kraemer.
arXiv: Astrophysics (2000)
The Disk and Environment of the Herbig Be Star HD 100546
C. A. Grady;E. F. Polomski;E. F. Polomski;E. F. Polomski;Th. Henning;B. Stecklum.
The Astronomical Journal (2001)
High-Resolution X-ray and Ultraviolet Spectroscopy of the Complex Intrinsic Absorption in NGC 4051 with Chandra and HST
M.J. Collinge;W.N. Brandt;Shai Kaspi;D. Michael Crenshaw.
arXiv: Astrophysics (2001)
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