Search results for "Nitrogen-vacancy center"

showing 5 items of 5 documents

Photoluminescence at the ground-state level anticrossing of the nitrogen-vacancy center in diamond: A comprehensive study

2021

Physical review / B 103(3), 035307 (2021). doi:10.1103/PhysRevB.103.035307

PhysicsPhotoluminescenceSpinsBand gapCenter (category theory)Diamond02 engineering and technologyengineering.material021001 nanoscience & nanotechnologyCondensed Matter Physics53001 natural sciences3. Good health0103 physical sciencesengineeringddc:530Atomic physics010306 general physics0210 nano-technologyNitrogen-vacancy centerGround stateSpin (physics)Den kondenserade materiens fysik
researchProduct

A single photon source based on NV centers in diamond nanocrystals

2009

The development of reliable devices to generate single photons is crucial for applications in quantum cryptography, as well as for fundamental quantum optics experiments. Due to their extremely high photostability at room temperature, optically active defects in solids, the so called color centers, are among the most promising candidates. Single NV(nitrogen-vacancy) centers in diamond have been demonstrated to be able to generate single photons and have already shown advantages compared to attenuated laser pulses in a quantum cryptography experiment [1]. The nitrogen-vacancy center (NV center) in diamond consists of a substitutional nitrogen atom and an adjacent vacancy. This complex exhibi…

Quantum opticsMaterials sciencePhotonbusiness.industryDiamondengineering.materialLaserlaw.inventionQuantum cryptographylawSingle-photon sourceengineeringOptoelectronicsPhotonicsbusinessNitrogen-vacancy center
researchProduct

Impact of Helium Ion Implantation Dose and Annealing on Dense Near-Surface Layers of NV Centers

2022

A. Berzins acknowledges support from Latvian Council of Science project lzp-2021/1-0379, “A novel solution for high magnetic field and high electric current stabilization using color centers in diamond,” and LLC “MikroTik” donation project, administered by the UoL foundation, “Improvement of Magnetic field imaging system” for the opportunity to significantly improve experimental setup as well as “Simulations for stimulation of science” for the opportunity to acquire COMSOL license. I. Fescenko acknowledges support from ERAF project 1.1.1.5/20/A/001, and I.F. and A.B. acknowledge support from LLC “MikroTik” donation project “Annealing furnace for the development of new nanometer-sized sensor…

Quantum PhysicsCondensed Matter - Materials Sciencenitrogen-vacancy centers; He ion implantation; diamond annealing; dense NV layersPhysics - Instrumentation and DetectorsCondensed Matter - Mesoscale and Nanoscale PhysicsGeneral Chemical Engineeringdiamond annealingMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciences:NATURAL SCIENCES::Physics [Research Subject Categories]Instrumentation and Detectors (physics.ins-det)nitrogen-vacancy centersHe ion implantationMesoscale and Nanoscale Physics (cond-mat.mes-hall)General Materials Sciencedense NV layersQuantum Physics (quant-ph)Nanomaterials
researchProduct

Dynamical stabilization of spin systems in time-dependent magnetic fields

2011

The quantum dynamics of a spin system subjected to a Rabi magnetic field configuration modified by a weak oscillating field along the Z-axis is investigated. We show that when the Rabi frequency is appropriately matched with the frequency of the perturbative field, the spin system exhibits a dynamical stabilization phenomenon defined as the tendency to occupy a fixed quantum superposition during a finite period of time.

PhysicsRabi cycleCondensed matter physicsField (physics)Spin polarizationQuantum dynamicsCondensed Matter PhysicsNitrogen-vacancy centerMathematical PhysicsAtomic and Molecular Physics and OpticsRabi frequencySpin-½Doublet statePhysica Scripta
researchProduct

Surface magnetic structure investigation of a nanolaminated Mn$_2$GaC thin film using a magnetic field microscope based on Nitrogen-Vacancy centers

2021

This work presents a magnetic field imaging method based on color centers in diamond crystal applied to a thin film of a nanolaminated Mn$_2$GaC MAX phase. Magnetic properties of the surface related structures have been described around the first order transition at 214 K by performing measurements in the temperature range between 200 K and 235 K with the surface features fading out by increasing temperature above the transition temperature. The results presented here demonstrate how Nitrogen-Vacancy center based magnetic microscopy can supplement the traditionally used set of experimental techniques, giving additional information of microscopic scale magnetic field features, and allowing t…

Materials scienceMicroscopeCondensed matter physicsMagnetic structureTransition temperatureFOS: Physical sciencesPhysics - Applied PhysicsApplied Physics (physics.app-ph)Atmospheric temperature rangeCondensed Matter PhysicsMicroscopic scaleMagnetic fieldlaw.inventionMagnetic field imaginglawGeneral Materials ScienceThin filmDen kondenserade materiens fysikMAX phase thin films; Magnetic thin films; Nitrogen-Vacancy centers in diamond; Magnetic field microscopy
researchProduct