TY - BOOK AU - Jang,Joon I. TI - New developments in photon and materials research T2 - Physics research technology SN - 9781626183841 AV - QC793.5.P42 U1 - 620.1/1295 23 PY - 2013///] CY - New York PB - Nova Publishers KW - Photons KW - SCIENCE KW - Nanoscience KW - bisacsh KW - fast KW - 7 KW - Electronic books N1 - Includes bibliographical references and index; NEW DEVELOPMENTS IN PHOTON AND MATERIALS RESEARCH ; Library of Congress Cataloging-in-Publication Data ; CONTENTS ; PREFACE ; PART I FUNDAMENTAL AND APPLIED PHOTON RESEARCH ; Chapter 1 BOSE-EINSTEIN CONDENSATION OF PHOTONS; Abstract; 1. Introduction; 2. Fluorescence Induced Thermalization; 2.1. Kennard-Stepanov Theory of Dye Spectra; 2.2. Chemical Equilibrium between Photons and Molecules; 2.3. Thermal Equilibrium and Markov Processes; 2.4. Light-Matter Thermalization Process; 2.5. Spectral Temperature; 3. Thermodynamics of theTwo-Dimensional Photon Gas; 3.1. Cavity Photon Dispersion; 3.2. Statistical Theory of Two-Dimensional Bose Gasin Trap3.3. Condensate Fluctuations; 4. Experiments on Photon Gas Thermalization; 4.1. Experimental Setup; 4.2. Spectral and Spatial Intensity Distribution; 5. Experiments on Photon Bose-Einstein Condensation; 6.Conclusion; References; Chapter 2 PHOTON GENERATION FROM THE ZPF FIELD INSIDE THE COLLAPSING BUBBLE ; ABSTRACT ; 1. INTRODUCTION ; 2. ZPF FIELD AND THE CASIMIR EFFECT ; 3. PHOTON PRODUCTION FROM ZPF VACUUM IN A COLLAPSING BUBBLE ; 3.1. Photon Generation from the ZPF Vacuum Due to the Casimir Effect ; (S.Liberati et al.); (V.V. Nesterenko and I.G.Pirozhenko) (C.E.Carson et al.) ; (K.Milton) ; (C.Eberlein) ; 3.2. Missing Component of Photon Generation from the ZPF Vacuum ; 3.3. Theoretical Calculation Results of ZPF Radiation from the Collapsing Bubble ; 4. POSSIBILITY OF GENERATING ENERGY BY SONOFUSION IN COLLAPSING BUBBLES; 5. EFFECT OF THERMAL RADIATION ON CHEMICAL SYSTEMS ; CONCLUSION ; REFERENCES ; Chapter 3 POLARIZATIONAL BREMSSTRAHLUNG: A REVIEW ; ABSTRACT ; 1. INTRODUCTION ; 2. THEORETICAL STUDIES OF POLARIZATIONAL BREMSSTRAHLUNG ; 3. EXPERIMENTAL STUDIES OF POLARIZATIONAL BREMSSTRAHLUNG; CONCLUSION ACKNOWLEDGMENTS ; REFERENCES ; Chapter 4 HUMAN PHOTON DYNAMICS DETERMINED BY USING PHOTON COUNT STATISTICS ; ABSTRACT ; 1. INTRODUCTION ; 2. ULTRA-WEAK PHOTON EMISSION RESEARCH IN HISTORICAL PERSPECTIVE: 50 YEARS OF ULTRA-WEAK PHOTON EMISSION ; 3. TOWARDS A SYSTEM APPROACH AND THE CONCEPTS OF COLLECTIVE PHENOMENA AND COHERENCE ; 3.1. System Approach in Biology ; 3.2. Collective Regulation ; 3.3. Coherence ; 4. MODELS FOR ANALYZING A PHOTON SIGNAL ; 4.1. Model A: Higher Moments and Fano Factor Analysis ; 4.2. Model B: Squeezed State Model ; 5. EXPERIMENTAL STUDIES; 5.1. Subjects and Procedures of Photon Emission Recording 5.1.1. Study A: Healthy Subjects ; 5.1.2. Study B: Pre-Diabetes Subjects ; 5.2. Results of Measurements ; 5.2.1. General ; 5.2.2. Correlation Analysis Correla; 5.2.2.1. Correlations in Study A So; 5.2.2.2. Correlations in Study B W; 5.2.3. Factor Analysis ; 5.3. Data Interpretation ; CONCLUSION ; ACKNOWLEDGMENTS ; REFERENCES ; Chapter 5 SOME RADIATION DOSIMETRIC STUDIES ON INHOMOGENEITY IN PHOTON RADIOTHERAPYUSING MONTE CARLO SIMULATIONS ; ABSTRACT ; 1. INTRODUCTION ; 2. METHODS AND MATERIALS UR - https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=607838 ER -