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This book uniquely presents the theoretical treatment of random processes in physics and finance, including applications to laser and semiconductor physics, light propagation in scattering media and investment decisions.
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This book uniquely presents the theoretical treatment of random processes in physics and finance, including applications to laser and semiconductor physics, light propagation in scattering media and investment decisions.
Produktdetails
- Produktdetails
- Oxford Finance
- Verlag: Sydney University Press
- Seitenzahl: 344
- Erscheinungstermin: 15. September 2013
- Englisch
- Abmessung: 236mm x 168mm x 20mm
- Gewicht: 567g
- ISBN-13: 9780199673803
- ISBN-10: 0199673802
- Artikelnr.: 38028281
- Oxford Finance
- Verlag: Sydney University Press
- Seitenzahl: 344
- Erscheinungstermin: 15. September 2013
- Englisch
- Abmessung: 236mm x 168mm x 20mm
- Gewicht: 567g
- ISBN-13: 9780199673803
- ISBN-10: 0199673802
- Artikelnr.: 38028281
Melvin Lax (Deceased) Distinguished Professor of Physics City College of New York Melvin Lax was a Distinguished Professor of Physics at the City College of the City University of New York (1971-2002), and a member of the U. S. National Academy of Sciences (1983-2002). He has been associated with Bell Laboratories as a member of the technical staff (1955-1972), as head of the Theoretical Physics Research Department (1962-1964) and as consultant to the Solid State Electronics Research Laboratory. After receiving his PhD in Physics from MIT (1947), Dr. Lax advanced from assistant to full professor of Physics at Syracuse University, (1947-55). He has also taught at Princeton (Spring 1961) and at Oxford (1961-1962). Dr. lax has published more than 200 papers. In 1999 Lax shared the Willis Lamb Medal for Laser Science and Quantum Optics. Dr. Lax was listed Who's Who in America. Wei Cai Senior research staff Institute for Ultrafast Spectroscopy and lasers Department of Physics City College of New York Wei Cai received Ph. D degree in Physics from University of Houston in 1985. He also received a MS degree in computer science from City College of City University of New York in 1992. He joined the Department of Physics at the City College of the City University of New York as a research associate in 1985. Recently, he is a senior member of the research staff at the Institute for Ultrafast Spectroscopy and Lasers. His main research interests are in radiative transfer and optical image processing. He has published 55 papers and holds 4 U. S. Patent. Min Xu Research staff Institute for Ultrafast Spectroscopy and lasers Department of Physics City College of New York Min Xu received Ph. D degree in Physics from City University of New York in 2001. He is currently a research associate at the Institute for Ultrafast Spectroscopy and Lasers. He works at the interface of physics, engineering and biomedical sciences. His main research interests are in optical physics, stochastic processes and inverse problems in physical and biological sciences, in particular, biomedical optical spectroscopy and imaging. He has published 30 peer-reviewed journal papers and holds 1 U. S. Patent.
1: Review of Probability
2: What is a random process
3: Examples of Markovian processes
4: Spectral measurement and correlation
5: Thermal noise
6: Shot noise
7: The fluctuation-dissipation theorem
8: Generalized Fokker-Planck equation
9: Langevin processes
10: Langevin treatment of the Fokker-Planck process
11: The rotating wave van del Pol oscillator (RWVP)
12: Noise in homogeneous semiconductors
13: Random walk of light in turbid media
14: Analytical solution of the elastic transport equation
15: Signal extraction in the presence of smoothing and noise
16: Stochastic methods in investment decision
17: Spectral analysis of economic time series
2: What is a random process
3: Examples of Markovian processes
4: Spectral measurement and correlation
5: Thermal noise
6: Shot noise
7: The fluctuation-dissipation theorem
8: Generalized Fokker-Planck equation
9: Langevin processes
10: Langevin treatment of the Fokker-Planck process
11: The rotating wave van del Pol oscillator (RWVP)
12: Noise in homogeneous semiconductors
13: Random walk of light in turbid media
14: Analytical solution of the elastic transport equation
15: Signal extraction in the presence of smoothing and noise
16: Stochastic methods in investment decision
17: Spectral analysis of economic time series
1: Review of Probability
2: What is a random process
3: Examples of Markovian processes
4: Spectral measurement and correlation
5: Thermal noise
6: Shot noise
7: The fluctuation-dissipation theorem
8: Generalized Fokker-Planck equation
9: Langevin processes
10: Langevin treatment of the Fokker-Planck process
11: The rotating wave van del Pol oscillator (RWVP)
12: Noise in homogeneous semiconductors
13: Random walk of light in turbid media
14: Analytical solution of the elastic transport equation
15: Signal extraction in the presence of smoothing and noise
16: Stochastic methods in investment decision
17: Spectral analysis of economic time series
2: What is a random process
3: Examples of Markovian processes
4: Spectral measurement and correlation
5: Thermal noise
6: Shot noise
7: The fluctuation-dissipation theorem
8: Generalized Fokker-Planck equation
9: Langevin processes
10: Langevin treatment of the Fokker-Planck process
11: The rotating wave van del Pol oscillator (RWVP)
12: Noise in homogeneous semiconductors
13: Random walk of light in turbid media
14: Analytical solution of the elastic transport equation
15: Signal extraction in the presence of smoothing and noise
16: Stochastic methods in investment decision
17: Spectral analysis of economic time series