Thermonuclear Supernovae [E-Book] / edited by P. Ruiz-Lapuente, R. Canal, J. Isern.
All theoretical and observational topics relevant to the understanding of the thermonuclear (Type Ia) supernova phenomenon are thoroughly and consistently reviewed by a panel including the foremost experts in the field. The book covers all aspects, ranging from the observations of SNe Ia at all stag...
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Full text |
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Personal Name(s): | Canal, R., editor |
Isern, J., editor / Ruiz-Lapuente, P., editor | |
Imprint: |
Dordrecht :
Springer,
1997
|
Physical Description: |
XXII, 890 p. online resource. |
Note: |
englisch |
ISBN: |
9789401157100 |
DOI: |
10.1007/978-94-011-5710-0 |
Series Title: |
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NATO ASI Series, Series C: Mathematical and Physical Sciences ;
486 |
Subject (LOC): |
- Type la supernovae: observational overview
- Supernova theory: an overview
- Infrared and optical spectroscopy of Type la supernovae
- Modeling the light curves of Type la supernovae
- The rate of supernovae: biases and uncertainties
- Statistical studies of supernovae
- Correlation of SN positions with spiral arms
- Scenarios for Type la supernovae
- The double degenerate population in the solar neighborhood
- Luminous supersoft X—ray sources as Type la progenitors
- Pre-explosion evolution of sub-Chandrasekhar Type la supernovae
- A phenomenological approach to the formation of massive CO white dwarfs
- The merging of white dwarfs
- SNe Ia: on the binary progenitors and expected statistics
- The elusive close binary white dwarfs
- Radio emission from Type la supernovae: a test of symbiotic star progenitor systems. The case of SN 1986G
- An observational limit on circumstellar Ha from Supernova SN 1994D
- The paths to white dwarf explosion/collapse
- Low mass SN la and the late light curve
- The final evolution of 8-10 MG stars
- Type la supernovae: flame physics and models
- Turbulence and thermonuclear burning
- Type la supernovae: nucleosynthesis and constraints on progenitors
- Flame instabilities and models of white dwarf burning
- SPH simulations of thermonuclear supernovae
- Thermonuclear supernova models
- Helium and carbon detonations in sub—Chandrasekhar white dwarfs
- Microscopic and macroscopic modeling of thermonuclear burning fronts
- Three—dimensional simulations of core ignition in sub—Chandrasekhar mass models
- Three—dimensional combustion in Type la supernovae
- Nucleosynthesis in SNe Ia and their impact on galactic evolution
- Gamma-rays and X—rays from Type la supernovae
- INTEGRAL and the Type la supernovae
- ASCA observation of supernova remnants
- Radiation transport in Type la supernovae
- On the correct treatment of expansion opacity in supernova light curve calculations
- Time dependence and the opacity of Type la supernovae
- NLTE modeling of SNe la near maximum light
- Models of the early—time spectra of SNe la using a Monte Carlo code
- Explosion models, light curves, spectra and H0
- The late—time emission of thermonuclear supernovae
- Analysis of the Type Ia supernova SN 1994D
- The late—time spectrum of SN 1991bg
- Type la supernovae as extragalactic distance indicators
- Maximum luminosities of Type la supernovae from Cepheid distances and the value of H0
- Scheduled discovery of 7+ high—redshift SNe: first cosmology results and bounds on q0
- The high—z SN search
- Observation of cosmological time dilation using Type Ia supernovae as clocks
- The Type la SNe rate at z ~0.4
- Type I supernova subclasses
- Type Ib and le supernovae: models and spectra
- Type Ib—Ic—IIb—IIL supernovae: common envelope evolution, instabilities, and circumstellar interaction
- New perspectives on Type le supernovae
- Concluding remarks —or— what I did on my coffee break.