Physical Properties of Diamond and Sapphire
Auteurs : Aggarwal Roshan L., Ramdas Anant K.
Focusing on the physical properties of diamond and sapphire, this monograph provides readers with essential details on crystal structure and growth, mechanical properties, thermal properties, optical properties, light scattering of diamond and sapphire crystals, and sapphire lasers.
Various physical properties are comprehensively discussed: Mechanical properties include hardness, tensile strength, compressive strength, and Young?s modulus. Thermal properties include thermal expansion, specific heat, and thermal conductivity. Optical properties of diamond and sapphire include transmission, refractive index, and absorption. Light scattering includes Raman scattering and Brillouin scattering. Sapphire lasers include chromium-doped and titanium-doped lasers.
Aimed at researchers and industry professionals working in materials science, physics, electrical engineering, and related fields, this monograph is the first to concentrate solely on physical properties of these increasingly important materials.
Preface
Acknowledgement
Authors
Chapter 1 Introduction
- Diamond
- Sapphire
Chapter 2 Crystal Structure and Growth
2.1 Diamond
2.2 Sapphire
Chapter 3 Mechanical Properties of Diamond
3.1 Hardness
3.2 Tensile Strength
3.3 Compressive Strength
3.4 Young’s Modulus
Chapter 4 Mechanical Properties of Sapphire
4.1 Hardness
4.2 Tensile Strength
4.3 Compressive Strength
4.4 Young’s Modulus
Chapter 5 Thermal Properties of Diamond
5.1 Thermal Expansion
5.2 Specific Heat
5.3 Thermal Conductivity
Chapter 6 Thermal Properties of Sapphire
6.1 Thermal Expansion
6.2 Specific Heat
6.3 Thermal Conductivity
Chapter 7 Optical Properties of Diamond
7.1 Transmission
7.2 Refractive Index
7.3 Absorption
Chapter 8 Optical Properties of Sapphire
8.1 Transmission and Absorption
8.2 Refractive Index
Chapter 9 Light Scattering of Diamond
9.1 Raman Scattering
9.2 Brillouin Scattering
Chapter 10 Light Scattering of Sapphire
10.1 Raman Scattering
10.2 Brillouin Scattering
Chapter 11 Sapphire Lasers
11.1 Chromium-Doped Sapphire Laser
11.2 Titanium-Doped Sapphire Laser
References
Index
Roshan L. Aggarwal retired from Massachusetts Institute of Technology (MIT) effective April 1, 2016 after 51 years of service. He is currently working as Part-Time Flexible Technical Staff in Group 81 "Chemical, Microsystem, and Nanoscale Technologies" at MIT Lincoln Laboratory. Previously, he was Technical Staff at MIT Lincoln Laboratory for 30 years (1986-2016), Senior Research Scientist, MIT Physics Department for 12 years (1975-1987), Associate Director, MIT Francis Bitter National Magnet Laboratory for 7 years (1977-1984), and Technical Staff, MIT Francis Bitter National Magnet Laboratory for 12 years (1965-1977). Dr. Aggarwal is a Fellow of the American Physical Society, a Senior Member of the Optical Society of America, a Fellow of the Punjab Academy of Sciences, and a Recipient of the Albert Nelson Marquis Lifetime Achievement Award.
Anant K. Ramdas retired as the Lark-Horovitz Distinguished Professor Emeritus of Physics in 2016 after 60 years of service at Purdue University. He received his Ph. D. in Physics from Poona University, India in 1956; his thesis advisor was Prof. C. V. Raman. Professor Ramdas is a Recipient of the Alexander von Humboldt Foundation Senior U. S. Scientist Award, Recipient of the Raman Centenary Medal of the Indian Academy of Sciences, Frank Isakson Prize of the American Physical Society, Sigma Xi Faculty Research Award, Ruth and Joel Spira Award for excellence in undergraduate teaching, and Herbert Newby McCoy Award of Purdue University. Prof. Ramdas is a Fellow of the American Physical Society, Fellow of the Optical Society of America, Fellow of the American Vacuum Society, Fellow of the American Association for the Advancement of Science, and Fellow of the Indian Academy of Sciences.
Date de parution : 09-2021
13.8x21.6 cm
Date de parution : 04-2019
13.8x21.6 cm
Thèmes de Physical Properties of Diamond and Sapphire :
Mots-clés :
MIT Lincoln Laboratory; Elastic Compliance Constants; uniaxial crystal sapphire; Brillouin Frequency Shift; refractive index; Brilliance Grades; isotropic crystal diamond; Room Temperature Absorption Spectrum; Purple Diamonds; Raman Polarizability Tensor; CVD; Brillouin Scattering; Natural Diamond; Synthetic Sapphire; Sapphire Single Crystal; Transverse Phonons; Brillouin Spectra; Raman Scattering; Single Crystal Diamond; Solid State Commun; Raman Cross-section; Brillouin Frequency; Blue Sapphires; Raman Spectra; Raman Active Modes; Ruby Laser; Laser Active Ion; Raman Line