Search results for "Rotational spectroscopy"

showing 10 items of 53 documents

Raman spectroscopy and crystal-field split rotational states of photoproducts CO and H2 after dissociation of formaldehyde in solid argon.

2012

Raman signal is monitored after 248 nm photodissociation of formaldehyde in solid Ar at temperatures of 9-30 K. Rotational transitions J = 2 ← 0 for para-H(2) fragments and J = 3 ← 1 for ortho-H(2) are observed as sharp peaks at 347.2 cm(-1) and 578.3 cm(-1), respectively, which both are accompanied by a broader shoulder band that shows a split structure. The rovibrational spectrum of CO fragments has transitions at 2136.5 cm(-1), 2138.3 cm(-1), 2139.9 cm(-1), and 2149 cm(-1). To explain the observations, we performed adiabatic rotational potential calculations to simulate the Raman spectrum. The simulations indicate that the splitting of rotational transitions is a site effect, where H(2) …

ChemistryPhotodissociationGeneral Physics and AstronomyRotational–vibrational spectroscopyDissociation (chemistry)symbols.namesakeExcited statesymbolsMoleculeRotational spectroscopyPhysical and Theoretical ChemistryAtomic physicsTriplet stateRaman spectroscopyta116The Journal of chemical physics
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State-to-state vibrational and rotational energy transfer in CO2 gas from time-resolved raman-infrared double resonance experiments

1998

A time-resolved Raman–infrared double resonance technique was used to study collisional relaxation rates of vibrational and rotational energy levels in CO2 gas at 295 K. A pulsed Raman excitation populated a selected rovibrational initial state. Measurements of the rates of transfer from the pumped initial state into specific final states were carried out using time-resolved laser absorption spectroscopy. First, the transfer rates were determined for the five lower vibrational energy levels. In particular, it was confirmed that the rate of transfer between the two Fermi levels (1000) and (0200) is very small [(5.3±0.2)×104 Torr-1 s-1]. The rotational structure inside the (0200) vibrational …

ChemistryRotational transitionRotational temperatureRotational–vibrational spectroscopyKinetic energyRotational energysymbols.namesakesymbolsVibrational energy relaxationGeneral Materials ScienceRotational spectroscopyAtomic physicsRaman spectroscopySpectroscopyJournal of Raman Spectroscopy
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Photoassociative production and trapping of ultracold KRb molecules.

2004

We have produced ultracold heteronuclear KRb molecules by the process of photoassociation in a two-species magneto-optical trap. Following decay of the photoassociated KRb*, the molecules are detected using two-photon ionization and time-of-flight mass spectroscopy of KRb$^+$. A portion of the metastable triplet molecules thus formed are magnetically trapped. Photoassociative spectra down to 91 cm$^{-1}$ below the K(4$s$) + Rb (5$p_{1/2}$) asymptote have been obtained. We have made assignments to all eight of the attractive Hund's case (c) KRb* potential curves in this spectral region.

Condensed Matter::Quantum GasesPhysicsAtomic Physics (physics.atom-ph)FOS: Physical sciencesGeneral Physics and AstronomyDiatomic moleculeSpectral linePhysics - Atomic PhysicsHeteronuclear moleculeIonizationMetastabilityMoleculeProduction (computer science)Physics::Atomic PhysicsRotational spectroscopyAtomic physicsPhysical review letters
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Application of time-resolved spectroscopy to concentration measurements in gas mixtures

2001

1296-2147; Concentration measurements using femtosecond Raman Induced Polarization Spectroscopy (RIPS) are performed in binary gas mixtures CO2-N2 and CO2-N2O at room temperature. The principle of these measurements is based on the nonlinear rotational time response of each molecular component of the mixture, The general form of this molecular response is a series of periodic transients with a period related to the rotational constant Be The relative strength of the individual responses allows an accurate determination of the concentration. Two techniques are presented using either two pulses (one pump and one probe) or three pulses (two pumps and one probe). (C) 2001 Academie des sciences/…

DYNAMICSmolecular concentrationMaterials scienceAnalytical chemistryGeneral Physics and Astronomy01 natural sciencesInduced polarizationsymbols.namesakeINDUCED POLARIZATION SPECTROSCOPYfemtosecond laser0103 physical sciencesMOLECULE010306 general physicsSpectroscopyPOPULATIONINTERFERENCE010304 chemical physicsTriatomic moleculeFEMTOSECONDDiatomic moleculeINVERSE RAMAN-SPECTROSCOPYROTATIONAL COHERENCEFemtosecondsymbolsCO2Rotational spectroscopyTime-resolved spectroscopyRaman spectroscopystimulated Raman effect
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Quantum-chemical calculation of Born–Oppenheimer breakdown parameters to rotational constants

2010

The paper describes how Born–Oppenheimer breakdown parameters for the rotational constants of diatomic molecules can be determined via quantum-chemical computations. The deviations from the Born–Oppenheimer equilibrium values are accounted for by considering the adiabatic correction to the equilibrium bond distances, the electronic contribution to the rotational constant via the rotational g tensor, and the so-called Dunham correction, which can be computed directly from a polynomial expansion of the potential curve around the equilibrium distance. Calculations for HCl, SiS, and HF demonstrate the accuracy that can be achieved in the theoretical treatment of the considered Born–Oppenheimer …

Field (physics)ChemistryBiophysicsBorn–Oppenheimer approximationRotational transitionRotational temperatureCondensed Matter PhysicsDiatomic moleculesymbols.namesakesymbolsRotational spectroscopyPhysics::Chemical PhysicsPhysical and Theoretical ChemistryAtomic physicsRotational partition functionAdiabatic processMolecular BiologyMolecular Physics
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Gas-phase detection of HSOH: synthesis by flash vacuum pyrolysis of di-tert-butyl sulfoxide and rotational-torsional spectrum.

2003

Gas-phase oxadisulfane (HSOH), the missing link between the well-known molecules hydrogen peroxide (HOOH) and disulfane (HSSH), was synthesized by flash vacuum pyrolysis of di-tert-butyl sulfoxide. Using mass spectrometry, the pyrolysis conditions have been optimized towards formation of HSOH. Microwave spectroscopic investigation of the pyrolysis products allowed-assisted by high-level quantum-chemical calculations--the first measurement of the rotational-torsional spectrum of HSOH. In total, we have measured approximately 600 lines of the rotational-torsional spectrum in the frequency range from 64 GHz to 1.9 THz and assigned some 470 of these to the rotational-torsional spectrum of HSOH …

Flash vacuum pyrolysisChemistryAb initio quantum chemistry methodsTotal angular momentum quantum numberOrganic ChemistryAnalytical chemistryMoleculeGeneral ChemistryRotational spectroscopyMass spectrometryCatalysisCis–trans isomerismIsotopomersChemistry (Weinheim an der Bergstrasse, Germany)
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Low-temperature microwave response of heavy-fermion compounds

2009

The electrodynamic properties of heavy fermions are distinct from those of normal metals due to the reduced transport relaxation rate that goes hand in hand with the enhanced mass. Using broadband microwave spectroscopy on thin-film samples of the heavy-fermion materials UPd2Al3 and UNi2Al3, we find that the frequency-dependent conductivity of these compounds at low temperatures follows a simple Drude prediction. The observed relaxation rates in the GHz frequency range are extremely low for a metal.

HistoryRange (particle radiation)Materials scienceCondensed matter physicsRelaxation rateHeavy fermionMicrowave responseRelaxation (physics)Rotational spectroscopyFermionConductivityComputer Science ApplicationsEducationJournal of Physics: Conference Series
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Equilibrium geometries of cyclic SiC3 isomers

2001

Equilibrium geometries of two isomers of cyclic SiC3 are determined by both large scale ab initio calculation and a procedure involving the use of experimental data from microwave spectroscopy and calculated harmonic and cubic force fields. Internuclear distances corresponding to structures obtained by both procedures agree to better than 0.003 A in all cases, allowing for precise recommendations of equilibrium structures. Rather large residual inertial defects obtained from moments of inertia based on rotational constants adjusted for effects of vibration–rotation interaction were found to be reduced significantly by inclusion of electronic contributions as estimated from calculations of r…

Inertial frame of referenceClassical mechanicsScale (ratio)ChemistryAb initio quantum chemistry methodsAb initioGeneral Physics and AstronomyHarmonic (mathematics)Rotational spectroscopyPhysical and Theoretical ChemistryMoment of inertiaResidualMolecular physicsThe Journal of Chemical Physics
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Cyclic SiS2: a new perspective on the Walsh rules.

2012

Information retrievalChemistryComputational chemistryPerspective (graphical)General ChemistryRotational spectroscopyCatalysisAngewandte Chemie (International ed. in English)
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Microwave, High-Resolution Infrared, and Quantum Chemical Investigations of CHBrF2: Ground and v4 = 1 States

2011

A combined microwave, infrared, and computational investigation of CHBrF(2) is reported. For the vibrational ground state, measurements in the millimeter- and sub-millimeter-wave regions for CH(79)BrF(2) and CH(81)BrF(2) provided rotational and centrifugal-distortion constants up to the sextic terms as well as the hyperfine parameters (quadrupole-coupling and spin-rotation interaction constants) of the bromine nucleus. The determination of the latter was made possible by recording of spectra at sub-Doppler resolution, achieved by means of the Lamb-dip technique, and supporting the spectra analysis by high-level quantum chemical calculations at the coupled-cluster level. In this context, the…

InfraredChemistryAnalytical chemistryCHBrF2Context (language use)rotational spectroscopyhgh-resolution infrared spectroscopyRotational spectroscopyPhysical and Theoretical ChemistryPerturbation theoryAtomic physicsGround stateRelativistic quantum chemistryQUANTUM-CHEMICAL CALCULATIONSHyperfine structureMicrowave
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