0000000000242572

AUTHOR

Wojciech Gawlik

showing 12 related works from this author

Production and detection of atomic hexadecapole at Earth's magnetic field

2007

Anisotropy of atomic states is characterized by population differences and coherences between Zeeman sublevels. It can be efficiently created and probed via resonant interactions with light, the technique which is at the heart of modern atomic clocks and magnetometers. Recently, nonlinear magneto-optical techniques have been developed for selective production and detection of higher polarization moments, hexadecapole and hexacontatetrapole, in the ground states of the alkali atoms. Extension of these techniques into the range of geomagnetic fields is important for practical applications. This is because hexadecapole polarization corresponding to the $\Delta M=4$ Zeeman coherence, with maxim…

Angular momentumLightEarth PlanetMagnetometerAtomic Physics (physics.atom-ph)TransducersPopulationFOS: Physical sciencesRadiation Dosagelaw.inventionPhysics - Atomic PhysicsMagneticssymbols.namesakelawPhysical Sciences and MathematicsScattering RadiationComputer SimulationPhysics::Atomic PhysicsRadiometryAnisotropyeducationPhysicseducation.field_of_studyZeeman effectEquipment DesignModels TheoreticalPolarization (waves)Atomic and Molecular Physics and OpticsAtomic clockMagnetic fieldEquipment Failure AnalysisBudker [BRII recipient]symbolsComputer-Aided DesignAtomic physicsEnvironmental Monitoring
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Free-fall expansion of finite-temperature Bose-Einstein condensed gas in the non Thomas-Fermi regime

2008

We report on our study of the free-fall expansion of a finite-temperature Bose-Einstein condensed cloud of 87Rb. The experiments are performed with a variable total number of atoms while keeping constant the number of atoms in the condensate. The results provide evidence that the BEC dynamics depends on the interaction with thermal fraction. In particular, they provide experimental evidence that thermal cloud compresses the condensate.

PhysicsCondensed Matter::Quantum GasesCondensed matter physicsCondensed Matter::OtherFOS: Physical sciencesFraction (chemistry)Condensed Matter PhysicsAtomic and Molecular Physics and Opticslaw.inventionCondensed Matter - Other Condensed MatterlawThermalConstant (mathematics)Bose–Einstein condensateOther Condensed Matter (cond-mat.other)Fermi Gamma-ray Space TelescopeVariable (mathematics)
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Matter-wave interference versus spontaneous pattern formation in spinor Bose-Einstein condensates

2013

We describe effects of matter-wave interference of spinor states in the $^{87}$Rb Bose-Einstein condensate. The components of the F=2 manifold are populated by forced Majorana transitions and then fall freely due to gravity in an applied magnetic field. Weak inhomogeneities of the magnetic field, present in the experiment, impose relative velocities onto different $m_F$ components, which show up as interference patterns upon measurement of atomic density distributions with a Stern-Gerlach imaging method. We show that interference effects may appear in experiments even if gradients of the magnetic field components are eliminated but higher order inhomogeneity is present and the duration of t…

PhysicsSpinorFOS: Physical sciencesPattern formationInterference (wave propagation)Atomic and Molecular Physics and OpticsManifoldMagnetic fieldlaw.inventionMAJORANAQuantum Gases (cond-mat.quant-gas)lawQuantum mechanicsMatter waveCondensed Matter - Quantum GasesBose–Einstein condensatePhysical Review A
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Laser frequency stabilization by magnetically assisted rotation spectroscopy

2011

Abstract We present a method of Doppler-free laser frequency stabilization based on magnetically assisted rotation spectroscopy (MARS) which combines the Doppler-free velocity-selective optical pumping (VSOP) and magnetic rotation spectroscopy. The stabilization is demonstrated for the atomic rubidium transitions at 780 nm. The proposed method is largely independent of stray magnetic fields and does not require any modulation of the laser frequency. Moreover, the discussed method allows one to choose between locking the laser exactly to the line center, or with a magnetically-controlled shift to an arbitrary frequency detuned by up to several natural linewidths. This feature is useful in ma…

Materials sciencebusiness.industrychemistry.chemical_elementRotationLaserAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsRubidiumMagnetic fieldlaw.inventionOptical pumpingOpticschemistryModulationlawLaser coolingPhysics::Atomic PhysicsElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessSpectroscopyOptics Communications
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Production and detection of atomic hexadecapole at Earth’s magnetic field

2007

We report a novel method that allows selective creation and detection of a macroscopic long lived hexadecapole polarization in the F = 2 ground state of 87Rb atoms at Earth's magnetic field (510 mG).

PhysicsEarth's magnetic fieldchemistryNonlinear opticschemistry.chemical_elementAtomic physicsGround statePolarization (waves)Magnetic fieldRubidiumFrontiers in Optics 2007/Laser Science XXIII/Organic Materials and Devices for Displays and Energy Conversion
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Line shape measurements of rubidium 5S-7S two-photon transition

2014

We report the use of a digital lock to measure the line profile and center frequency of rubidium 5S-7S two-photon transitions with a cw laser referenced to an optical frequency comb. The narrow, two-photon transition, 5S-7S (760 nm), insensitive to first-order in a magnetic field, is a promising candidate for frequency reference.

HistoryPhotonbusiness.industryMeasure (physics)chemistry.chemical_elementLaserComputer Science ApplicationsEducationRubidiumMagnetic fieldlaw.inventionOpticschemistryTwo-photon excitation microscopylawCenter frequencybusinessLine (formation)
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Coherent population oscillations with nitrogen-vacancy color centers in diamond

2015

We present results of our research on two-field (two-frequency) microwave spectroscopy in nitrogen-vacancy (NV-) color centers in a diamond. Both fields are tuned to transitions between the spin sublevels of the NV- ensemble in the 3A2 ground state (one field has a fixed frequency while the second one is scanned). Particular attention is focused on the case where two microwaves fields drive the same transition between two NV- ground state sublevels (ms=0 -> ms=+1). In this case, the observed spectra exhibit a complex narrow structure composed of three Lorentzian resonances positioned at the pump-field frequency. The resonance widths and amplitudes depend on the lifetimes of the levels in…

Physicseducation.field_of_studyField (physics)Atomic Physics (physics.atom-ph)PopulationRelaxation (NMR)ResonanceFOS: Physical sciences02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesSpectral linePhysics - Atomic Physics0103 physical sciencesRotational spectroscopyAtomic physics010306 general physics0210 nano-technologyGround stateeducationSpin (physics)
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Absolute frequency measurement of rubidium 5S-7S two-photon transitions.

2013

We report the absolute frequency measurements of rubidium 5S-7S two-photon transitions with a cw laser digitally locked to an atomic transition and referenced to an optical frequency comb. The narrow, two-photon transition, 5S-7S (760 nm) insensitive to first order in a magnetic field, is a promising candidate for frequency reference. The performed tests yield the transition frequency with accuracy better than reported previously.

PhysicsAtomic Physics (physics.atom-ph)Absolute frequencyFOS: Physical sciencesPhysics::Opticschemistry.chemical_elementCw laserFirst orderAtomic and Molecular Physics and OpticsPhysics - Atomic PhysicsRubidiumMagnetic fieldTwo-photon excitation microscopychemistryYield (chemistry)Physics::Atomic PhysicsOptical frequency combAtomic physicsOptics letters
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Production and study of spinor condensates of <sup>87</sup>Rb released from a magnetic trap

2009

We report on our study of spinor condensates in the F=2 state of 87Rb produced in an atomic cloud expanding after releasing from a magnetic trap. The experiments are conducted in the setup described in Ref. [1].

Condensed Matter::Quantum GasesPhysicsSpinorMagnetic momentMagnetic domainMagnetic separationchemistry.chemical_elementMagnetic perturbationRubidiumchemistryMagnetic trapAtom opticsPhysics::Atomic PhysicsAtomic physicsCLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference
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Analysis and calibration of absorptive images of Bose-Einstein condensate at non-zero temperatures

2008

We describe the method allowing quantitative interpretation of absorptive images of mixtures of BEC and thermal atoms which reduces possible systematic errors associated with evaluation of the contribution of each fraction. By using known temperature dependence of the BEC fraction, the analysis allows precise calibration of the fitting results. The developed method is verified in two different measurements and compares well with theoretical calculations and with measurements performed by another group.

PhysicsSystematic errorCondensed Matter::Quantum GasesZero (complex analysis)FOS: Physical sciencesInterpretation (model theory)Computational physicslaw.inventionCondensed Matter - Other Condensed MatterlawThermalCalibrationFraction (mathematics)InstrumentationBose–Einstein condensateOther Condensed Matter (cond-mat.other)
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Optimal geometry for efficient loading of an optical dipole trap

2009

One important factor which determines efficiency of loading cold atoms into an optical dipole trap from a magneto-optical trap is the distance between the trap centers. By studying this efficiency for various optical trap depths (2--110 mK) we find that for optimum dipole trap loading, longitudinal displacements up to 15 mm are necessary. An explanation for this observation is presented and compared with other work and a simple analytical formula is derived for the optimum distance between the trap centers.

PhysicsTrap (computing)Condensed Matter::Quantum GasesDipoleWork (thermodynamics)Atomic Physics (physics.atom-ph)Magnetic trapFOS: Physical sciencesPhysics::Atomic PhysicsAtomic physicsAtomic and Molecular Physics and OpticsImaging phantomPhysics - Atomic Physics
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Experiments on the dynamics of the Bose–Einstein condensate at finite temperatures

2009

This paper presents the results of our recent experiments on the finite-temperature Bose?Einstein condensate of 87Rb atoms in a magnetic trap, and is devoted to the study of the hydrodynamic properties and dynamics of an ultra-cold atomic gas near the critical temperature. Measurements of the aspect ratio of an expanding atomic cloud allow for verification of the condensate models and study of the interaction between condensed and non-condensed fractions of a finite-temperature sample.

Condensed Matter::Quantum GasesPhysicsCondensed matter physicsBose gasCondensed Matter::OtherDynamics (mechanics)Condensed Matter PhysicsAspect ratio (image)Atomic and Molecular Physics and Opticslaw.inventionFermionic condensatesymbols.namesakeBose–Einstein statisticslawUltracold atomMagnetic trapsymbolsPhysics::Atomic PhysicsAtomic physicsMathematical PhysicsBose–Einstein condensatePhysica Scripta
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