Chapter 12 Laser Cavities and Microcavities: Vertical Cavity Surface
... Here, T is the roundtrip time of the cavity. The frequency spacing between adjacent cavity modes is called the free spectral range of the cavity. It is more commonly expressed as wavelength spacing, ...
... Here, T is the roundtrip time of the cavity. The frequency spacing between adjacent cavity modes is called the free spectral range of the cavity. It is more commonly expressed as wavelength spacing, ...
"Fundamentals of Electronic Spectroscopy" in
... states by ab initio quantum theory is reviewed in Jungen 2011b: Ab Initio Calculations for Rydberg States and by multichannel quantum defect theory in Jungen 2011a: Elements of Quantum Defect Theory, both in this handbook. Experimental and theoretical investigations of the photodissociation of elect ...
... states by ab initio quantum theory is reviewed in Jungen 2011b: Ab Initio Calculations for Rydberg States and by multichannel quantum defect theory in Jungen 2011a: Elements of Quantum Defect Theory, both in this handbook. Experimental and theoretical investigations of the photodissociation of elect ...
Addressing of individual atoms in an optical dipole trap
... laser field results in an absorbtion of the momentum ~k, where k is the wave vector with the absolute value of k = 2π/λ. The succeeding emission of a photon can be stimulated by the laser field (induced emission) or occur spontaneously. In the first case the momentum of the emitted photon is equal t ...
... laser field results in an absorbtion of the momentum ~k, where k is the wave vector with the absolute value of k = 2π/λ. The succeeding emission of a photon can be stimulated by the laser field (induced emission) or occur spontaneously. In the first case the momentum of the emitted photon is equal t ...
Fundamentals of Physics 7th Edition: Instructor`s Manual
... and are used again in the thermodynamics chapters. If Chapter 14 is omitted, you should be prepared to make up for the loss of material by presenting definitions and discussions of velocity fields, pressure, and density when they are first used in your course. Chapter 12 (Equilibrium and Elasticity) ...
... and are used again in the thermodynamics chapters. If Chapter 14 is omitted, you should be prepared to make up for the loss of material by presenting definitions and discussions of velocity fields, pressure, and density when they are first used in your course. Chapter 12 (Equilibrium and Elasticity) ...
PDF
... hydrodynamics. The low density of the gas allows direct comparison with first principle theories. Recently, vortices in a Bose-Einstein condensate have been realized experimentally and are currently under intensive study [5-7]. In most of this work, vortices were identified by observing the density ...
... hydrodynamics. The low density of the gas allows direct comparison with first principle theories. Recently, vortices in a Bose-Einstein condensate have been realized experimentally and are currently under intensive study [5-7]. In most of this work, vortices were identified by observing the density ...
8 Momentum
... When a moving billiard ball collides head-on with a ball at rest, the first ball comes to rest and the second ball moves away with a velocity equal to the initial velocity of the first ball. Momentum is transferred from the first ball to the second ball. ...
... When a moving billiard ball collides head-on with a ball at rest, the first ball comes to rest and the second ball moves away with a velocity equal to the initial velocity of the first ball. Momentum is transferred from the first ball to the second ball. ...
Macroscopic superposition states and decoherence by quantum
... charge qubits. A thorough understanding of decoherence is important not only for fundamental reasons but it is also important for achieving the long dephasing times in applications of coherent quantum dynamics. A general introduction into decoherence of two-level systems can be found in Chap. 4. The ...
... charge qubits. A thorough understanding of decoherence is important not only for fundamental reasons but it is also important for achieving the long dephasing times in applications of coherent quantum dynamics. A general introduction into decoherence of two-level systems can be found in Chap. 4. The ...
Midterm Review
... ____ 56. Why did J. J. Thomson reason that electrons must be a part of the atoms of all elements? a. Cathode rays are negatively-charged particles. b. Cathode rays can be deflected by magnets. c. An electron is 2000 times lighter than a hydrogen atom. d. Charge-to-mass ratio of electrons was the sam ...
... ____ 56. Why did J. J. Thomson reason that electrons must be a part of the atoms of all elements? a. Cathode rays are negatively-charged particles. b. Cathode rays can be deflected by magnets. c. An electron is 2000 times lighter than a hydrogen atom. d. Charge-to-mass ratio of electrons was the sam ...