1. Edition - April 2007
51.90 Euro
2007. 446 Pages, Softcover
- Practical Approach Book -
ISBN-10: 0-470-01306-0
ISBN-13: 978-0-470-01306-9 - John Wiley & Sons






Sample Chapter

Short description
Astrophysics: Decoding the Cosmos is an accessible introduction to the key principles and theories underlying astrophysics. This text takes a close look at the radiation and particles that we receive from astronomical objects, providing a thorough understanding of what this tells us, drawing the information together using examples to illustrate the process of astrophysics. Chapters dedicated to objects showing complex processes are written in an accessible manner and pull relevant background information together to put the subject firmly into context.

From the contents
Preface.

Acknowledgments.

Introduction.

Appendix: dimensions, units and equations.

PART I THE SIGNAL OBSERVED.

1 Defining the signal.

1.1 The power of light - luminosity and spectral power.

1.2 Light through a surface - flux and flux density.

1.3 The brightness of light - intensity and specific intensity.

1.4 Light from all angles - energy density and mean intensity.

1.5 How light pushes - radiation pressure.

1.6 The human perception of light - magnitudes.

1.7 Light aligned - polarization.

Problems.

2 Measuring the signal.

2.1 Spectral filters and the panchromatic universe.

2.2 Catching the signal - the telescope.

2.3 The Corrupted signal - the atmosphere.

2.4 Processing the signal.

2.5 Analysing the signal.

2.6 Visualizing the signal.

Problems.

Appendix: refraction in the Earth's atmosphere.

PART II MATTER AND RADIATION ESSENTIALS.

3 Matter essentials.

3.1 The Big Bang.

3.2 Dark and light matter.

3.3 Abundances of the elements.

3.4 The gaseous universe.

3.5 The dusty Universe.

3.6 Cosmic rays.

Problems.

Appendix: the electron/proton ratio in cosmic rays.

4 Radiation essentials.

4.1 Black body radiation.

4.2 Grey bodies and planetary temperatures.

Problems.

Appendix: derivation of the Planck function.

4.A.1 The statistical weight.

4.A.2 The mean energy per state.

4.A.3 The specific energy density and specific intensity.

PART III THE SIGNAL PERTURBED.

5 The interaction of light with matter.

5.1 The photon redirected - scattering.

5.2 The photon lost - absorption.

5.3 The wavefront redirected - refraction.
5.4 Quantifying opacity and transparency.

5.5 The opacity of dust - extinction.

Problems.

6 The signal transferred.

6.1 Types of energy transfer.

6.2 The equation of transfer.

6.3 Solutions to the equation of transfer.

6.4 Implications of the LTE solution.

Problems.

7 The interaction of light with space.

7.1 Space and time.

7.2 Redshifts and blueshifts.

7.3 Gravitational refraction.
7.4 Time variability and source size.

Problems.

PART IV THE SIGNAL EMITTED.

8 Continuum emission.

8.1 Characteristics of continuum emission - thermal and non-thermal.

8.2 Bremsstrahlung (free-free) emission.

8.3 Free-bound (recombination) emission.

8.4 Two-photon emission.

8.5 Synchrotron (and cyclotron) radiation.

8.6 Inverse Compton radiation.

Problems.

9 Line emission.

9.1 The richness of the spectrum - radio waves to gamma rays.

9.2 The line strengths, thermalization, and the critical gas density.
9.3 Line broadening.

9.4 Probing physical conditions via electronic transitions.

9.5 Probing physical conditions via molecular transitions.

Problems.

PART V THE SIGNAL DECODED.

10 Forensic astronomy.

10.1 Complex spectra.

10.2 Case studies - the active, the young, and the old.

10.3 The messenger and the message.

Problems.

Appendix A: Mathematical and geometrical relations.

A.1 Taylor series.

A.2 Binomial expansion.

A.3 Exponential expansion.

A.4 Convolution.

A.5 Properties of the ellipse.

Appendix B: Astronomical geometry.

B.1 One-dimensional and two-dimensional angles.

B.2 Solid angle and the spherical coordinate system.

Appendix C: The hydrogen atom.

C.1 The hydrogen spectrum and principal quantum number.

C.2 Quantum numbers, degeneracy, and statistical weight.

C.3 Fine structure and the Zeeman effect.

C.4 The l 21 cm line of neutral hydrogen.

Appendix D: Scattering processes.

D.1 Elastic, or coherent scattering.

D.2 Inelastic scattering - Compton scattering from free electrons.

D.3 Scattering by dust.

Appendix E: Plasmas, the plasma frequency, and plasma waves.

Appendix F: The Hubble relation and the expanding Universe.

F.1 Kinematics of the Universe.

F.2 Dynamics of the Universe.

F.3 Kinematics, dynamics and high redshifts.

Appendix G: Tables and Figures.

References.

Index.