Search results for "Frequency standard"

showing 7 items of 7 documents

Magnetic hyperfine spectrum of isolated (199Hg)+ Ions

1978

The (199Hg)+ ions were stored in an RF quadrupole electric field and their ground state hyperfine populations pumped optically using the ion resonance radiation at 1942 A from a (202Hg) isotope enriched lamp. A microwave field at 40.5 GHz was phase-locked to the 1350th harmonic of the output of a frequency synthesizer, referenced to a Cs-beam frequency standard. Using a digital averager, a high background suppression optical system monitored the fluorescence light from the ions. Linewidths on the order of 3 Hz were observed for the “field-independent” 0-0 transition, and a value of 40, 507, 348, 051±50 Hz was deduced for the magnetic hyperfine interval, corrected to zero magnetic field.

Frequency synthesizerMaterials scienceGeneral EngineeringGeneral ChemistryFrequency standardMagnetic fieldIonElectric fieldQuadrupoleGeneral Materials SciencePhysics::Atomic PhysicsAtomic physicsGround stateHyperfine structureApplied Physics
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Broadband Fabry–Pérot Resonator From Zerodur for Laser Stabilisation Below 1KHZ Linewidth With < 100 HZ/S Drift and Reduced Sensitivity to Vibrati…

2015

Abstract Here we demonstrate the results of creating a two-mirror Fabry-Pérot resonator (FPR) that allows achieving the spectral width of a stabilised laser line below 1 kHz. It had low expansion Zerodur spacer and broadband high reflectance mirrors (99.85% in the range of 630 to 1140 nm). FPR was vertically mid-plane mounted for reduced sensitivity to vibrations and included in two shields inside a vacuum chamber to lower temperature fluctuations. Peltier element was used for temperature stabilisation at zero-expansion temperature. Pound-Drever-Hall (PDH) technique was applied. The signal from FPR was compared to ultra-stable signal (of about 1 Hz linewidth) to form a beat note signal. For…

Materials sciencebusiness.industryPhysicsQC1-999General EngineeringGeneral Physics and AstronomyZerodurLaserlaw.inventiondiode laserVibrationLaser linewidthResonatorOpticslawoptical frequency standardsnarrow spectral lineBroadbandstabilisationbusinesspdh techniqueSensitivity (electronics)Fabry–Pérot interferometerfabry-pérot resonatorLatvian Journal of Physics and Technical Sciences
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Measurement of the transverse Doppler shift using a stored relativistic7Li+ ion beam

1992

We have performed for the first time precision spectroscopy on a coasting fast7Li+ ion beam in a storage ring. The ion beam moving with 6.4% speed of light was first electron cooled and then merged with two counterpropagating laser beams acting on two different hyperfine transitions sharing a common upper level (λ-system). One laser was frequency locked to thea 3 127J2 hfs frequency component established as a secondary frequency standard at 514 nm. The second laser was tuned over theλ-resonance, which was recorded relative to127J2 hfs components. This experiment is sensitive to the time dilation in fast moving frames and will lead to new limits for the verification of special relatively. Th…

PhysicsNuclear and High Energy PhysicsDye laserSecondary frequency standardIon beambusiness.industryLaserElectromagnetic radiationlaw.inventionsymbols.namesakeOpticslawsymbolsPhysics::Atomic PhysicsAtomic physicsbusinessDoppler effectStorage ringElectron coolingZeitschrift f�r Physik A Hadrons and Nuclei
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Precision measurement of two iodine lines at 585 nm and 549 nm

1993

The transition frequencies of thei-component of the R(99)15-1 and thew-component of the R(85)26-0 transition in the B-X system of molecular127I2 have been determined with an overall relative standard uncertainty of 1.3 · 10−10. For this purpose a commercial linear dye laser has been modified and stabilized to the corresponding iodine line. This dye laser serves as a transportable frequency standard which is compared with the wavelength standards of the PTB. The evaluation of an experiment for testing special relativity at the test storage ring (TSR) in Heidelberg is based on the precision of the reported interferometric wavelength comparison.

PhysicsNuclear and High Energy PhysicsDye laserbusiness.industryOther Fields of Physicschemistry.chemical_elementFrequency standardIodineWavelengthInterferometryOpticschemistryStandard uncertaintybusinessStorage ringLine (formation)Zeitschrift f�r Physik A Hadrons and Nuclei
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Hydrogen maser frequency shifts due to coherently excited Δm F =±1 transitions betweenF=1 levels of the atomic hydrogen ground state

1968

Hydrogen maser frequency shifts, caused by the multiple quantum transition nonlinearities of a resonant multiple frequency excitation of the atomic hydrogen four level ground state system have been investigated. The oscillation characteristics of hydrogen maser operation with simultaneously excited, low frequencyΔm F =±1 transitions between theF=1 states of the atomic hydrogen ground state have been analysed theoretically and explicit formulas for hydrogen maser frequency shifts and amplitude response have been derived for arbitrary maser oscillation amplitude and a small signal approximation for theΔm F =±1 “Zeeman” transitions. The comparison with experimentally observed hydrogen maser fr…

PhysicsNuclear and High Energy PhysicsZeeman effectResonanceHydrogen maserFrequency standardPopulation inversionlaw.inventionsymbols.namesakelawExcited statesymbolsPhysics::Atomic PhysicsMaserAtomic physicsGround stateZeitschrift für Physik A Hadrons and nuclei
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Direct detection of the 229Th nuclear clock transition

2017

Today’s most precise time and frequency measurements are performed with optical atomic clocks. However, it has been proposed that they could potentially be outperformed by a nuclear clock, which employs a nuclear transition instead of an atomic shell transition. There is only one known nuclear state that could serve as a nuclear clock using currently available technology, namely, the isomeric first excited state of 229Th (denoted 229mTh). Here we report the direct detection of this nuclear state, which is further confirmation of the existence of the isomer and lays the foundation for precise studies of its decay parameters. On the basis of this direct detection, the isomeric energy is const…

PhysicsQuantum opticsMultidisciplinaryPhysics - Instrumentation and Detectors010308 nuclear & particles physicsNuclear TheoryElectronvoltFOS: Physical sciencesInstrumentation and Detectors (physics.ins-det)Frequency standardLaser01 natural sciencesAtomic clockComputational physicslaw.inventionlawExcited state0103 physical sciencesMicrochannel plate detectorNuclear Experiment (nucl-ex)Nuclear Experiment010306 general physicsNuclear ExperimentExcitation
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Direct detection of the elusive 229thorium isomer: Milestone towards a nuclear clock

2017

Recently, the first direct detection of the long-searched low-lying isomeric first excited state of 229Th could be realized via its internal conversion decay branch, which confirms the isomer's existence and lays the foundation for precise studies of its decay parameters, in particular its half-life and excitation energy. Follow-up studies confirmed the theoretically expected lifetime reduction by about 109 of neutral 229mTh compared to charged isomers with τ∼10 μS thus emphasizing the need to efficiently suppress internal conversion when aiming for the detection of a potential photonic decay branch of 229mTh. Work towards precisely determining the excitation energy of the thorium isomer is…

PhysicsWork (thermodynamics)010308 nuclear & particles physicsThoriumchemistry.chemical_elementFrequency standard01 natural sciencesAtomic clockIonInternal conversionchemistryExcited state0103 physical sciencesAtomic physics010306 general physicsExcitation2017 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium (EFTF/IFCS)
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