L. Bell*, et. al., "THz emission by Quantum Beating in a Modulation
L. Bell*, et. al., "THz emission by Quantum Beating in a Modulation

... carrier density. Both curves have been normalized to aid comparison to experiment. ...
Extraction of thermal and electromagnetic properties in 45Ti
Extraction of thermal and electromagnetic properties in 45Ti

Higher-order energy level spacing distributions in the transition
Higher-order energy level spacing distributions in the transition

Electrostatics in material medium
Electrostatics in material medium

... Polarization: concentration of opposite charges at the ends of a patch of volume or molecule (large or small) away from equilibrium position – could be due to externally applied electric ~ or inherent assymmetry of charge distribution. In other word, polarization can field E be both induced by exter ...
Exam #3
Exam #3

... 4. (3 pts each) Circle the number next to the appropriate response for each of the following: a. The azimuthal quantum number (l) governs: 1. The energy of an orbital 2. The shape of an orbital 3. The color of an orbital 4. The spin of an electron in an orbital 5. The spatial orientation of an orbi ...
Topological Chern Indices in Molecular Spectra
Topological Chern Indices in Molecular Spectra

Fast Spin State Initialization in a Singly Charged InAs
Fast Spin State Initialization in a Singly Charged InAs

... with V1 (V2), the absorption is strongly suppressed and the transition becomes transparent. Thus, the polarized spin states can be selectively prepared in either the jxi or jxi spin state. The mechanism of the spin state preparation can also be explained in terms of saturation spectroscopy. A simp ...
Quantum phase transitions in atomic gases and condensed matter
Quantum phase transitions in atomic gases and condensed matter

Phys. Rev. Lett. 104, 043002 (2010)
Phys. Rev. Lett. 104, 043002 (2010)

Intermolecular and Ionic Forces
Intermolecular and Ionic Forces

... The back bench of the lab has been set up with multiple model kits to build the structure of solid water (ice). This kit is specifically designed to show the difference between covalent bonds O-H bonds within a water molecule and the hydrogen bridges holding two different H2O molecules together. Gro ...
Investigating Entanglemen
Investigating Entanglemen

... C: If the filters for the photon pair are identical, then 100% of the results will be the same, i.e. either they both pass or they both fail. This could be caused either by hidden variables or by the intrinsic randomness of quantum physics, so it isn’t able to tell us which model is correct. ii) Now ...
Optical Properties of Lithium - Zinc – Boro- MolybdateGlass
Optical Properties of Lithium - Zinc – Boro- MolybdateGlass

Isotopic fractionation in proteins as a measure of hydrogen bond
Isotopic fractionation in proteins as a measure of hydrogen bond

... difference between the vibrational zero-point energy for hydrogen and deuterium. It is found that the associated fractionation factor Φ is correlated with the strength of the intramolecular hydrogen bonds. This correlation has been used to determine the length of the H-bonds (donor-acceptor separati ...
Intrinsic electrical transport properties of monolayer silicene and
Intrinsic electrical transport properties of monolayer silicene and

... Very recently, the attention to low-dimensional materials has expanded beyond the best-known example of this kind: graphene.1–4 In particular, silicene5–8 and molybdenum disulfide9–12 have gained much interest due to their unique properties in electronics, optoelectronics, and magnetics. Silicene is ...
VBSINGHOSUp437
VBSINGHOSUp437

ppt1 - ChemWeb (UCC)
ppt1 - ChemWeb (UCC)

... Cannot obtain a population inversion using thermal methods in a 2 level system. • Multi-level systems must be employed. • Molecules need to be pumped into a higher energy state. Various methods : electrical discharge, flashlamp excitation. • Continuous pumping gives a Continuous Wave (CW) Laser. • P ...
Emergent quasicrystals in strongly correlated systems
Emergent quasicrystals in strongly correlated systems

... a = 1, 2, · · · , 6 are presented in Table (I). Pursuing Table (I), one observes that two adjacent occupied sites are always separated by either one or two empty sites. We verified that this persists for higher values of a as well. The ground state configurations can therefore be compactly encoded b ...
Durham Research Online
Durham Research Online

... 2-dimensional projection of the original 3-dimensional velocity distribution of the NO molecules onto the (vx , vz ) plane. Such a set-up allows the direct measurement of the absolute velocity of both the molecular beam and of the NO fragment molecules, which is vital in maximizing the efficiency of ...
1- Harmonic Oscillator in an impenetrable N - An
1- Harmonic Oscillator in an impenetrable N - An

Oxygen in barium fluoride - Physics
Oxygen in barium fluoride - Physics

... now been abandoned, and the present work shows quantitatively that it is not correct. Specifically, a detailed study of the optical absorption of O2 shows that its excitation energy, split by spin polarization, is ;50% higher than the luminescent frequencies of the crystal. Instead, color centers, s ...
Circular Dichroism (CD) and Optical Rotatory Dispersion (ORD
Circular Dichroism (CD) and Optical Rotatory Dispersion (ORD

... In symmetric molecules, magnetic transition dipoles are always perpendicular to electric transition dipoles. Thus, the rotational strength in symmetric molecules is zero, and they exhibit no CD. Most of the chromophores in biopolymers are symmetric. (Exceptions include the peptide bond and the disul ...
Stoichiometry
Stoichiometry

... from the reaction of 0.10 mole of Mg3N2? • How many moles of NH3 would be produced from the reaction of 500. g of Mg3N2? • How many molecules of water would be required to react with 3.64 g of Mg3N2? • What is the maximum number of grams of Mg(OH)2 that can be produced by the reaction of 10.0 g of M ...
Physikalische Chemie
Physikalische Chemie

REAKSI SENYAWA KOMPLEKS
REAKSI SENYAWA KOMPLEKS

Heat diffusion from the more general perspective and its application
Heat diffusion from the more general perspective and its application

... We already published some results of our modeling of MCE [2, 8]. This paragraph will mostly contain some supplementary remarks to sketch the modeling procedure to make the following text about diffusion and phase transitions more understandable. Our calculations were done by a standard Heisenberg me ...

Franck–Condon principle



The Franck–Condon principle is a rule in spectroscopy and quantum chemistry that explains the intensity of vibronic transitions. Vibronic transitions are the simultaneous changes in electronic and vibrational energy levels of a molecule due to the absorption or emission of a photon of the appropriate energy. The principle states that during an electronic transition, a change from one vibrational energy level to another will be more likely to happen if the two vibrational wave functions overlap more significantly.