0000000000916770

AUTHOR

Sergey Kubatkin

0000-0001-8551-9247

showing 3 related works from this author

Application of Tuning Fork Sensors for In-situ Studies of Dynamic Force Interactions Inside Scanning and Transmission Electron Microscopes

2012

Mechanical properties of nanoscale contacts have been probed in-situ by specially developed force sensor based on a quartz tuning fork resonator (TF). Additional control is provided by observation of process in scanning electron microscope (SEM) and transmission electron microscope (TEM). A piezoelectric manipulator allows precise positioning of atomic force microscope (AFM) probe in contact with another electrode and recording of the TF oscillation amplitude and phase while simultaneously visualizing the contact area in electron microscope. Electrostatic control of interaction between the electrodes is demonstrated during observation of the experiment in SEM. In the TEM system the TF senso…

lcsh:TN1-997Scanning Hall probe microscopeMaterials scienceScanning electron microscopebusiness.industryfrictiontuning forknanomechanicslaw.inventionNEMSOpticslawMicroscopymicroscopyGeneral Materials ScienceScanning tunneling microscopeElectron microscopeTuning forkbusinessContact areaNon-contact atomic force microscopylcsh:Mining engineering. MetallurgyMaterials Science
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Direct Identification of Dilute Surface Spins on Al2O3 : Origin of Flux Noise in Quantum Circuits

2017

An on-chip electron spin resonance technique is applied to reveal the nature and origin of surface spins on Al2O3. We measure a spin density of 2.2×1017 spins/m2, attributed to physisorbed atomic hydrogen and S=1/2 electron spin states on the surface. This is direct evidence for the nature of spins responsible for flux noise in quantum circuits, which has been an issue of interest for several decades. Our findings open up a new approach to the identification and controlled reduction of paramagnetic sources of noise and decoherence in superconducting quantum devices.

PhysicsSuperconductivityQuantum decoherenceCondensed matter physicsSpinsPulsed EPRGeneral Physics and AstronomyMacroscopic quantum phenomena02 engineering and technology021001 nanoscience & nanotechnology01 natural scienceslaw.inventionlaw0103 physical sciencesCondensed Matter::Strongly Correlated Electrons010306 general physics0210 nano-technologyElectron paramagnetic resonanceQuantumNoise (radio)Physical Review Letters
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Effect of graphene substrate type on formation of Bi2Se3 nanoplates

2019

AbstractKnowledge of nucleation and further growth of Bi2Se3 nanoplates on different substrates is crucial for obtaining ultrathin nanostructures and films of this material by physical vapour deposition technique. In this work, Bi2Se3 nanoplates were deposited under the same experimental conditions on different types of graphene substrates (as-transferred and post-annealed chemical vapour deposition grown monolayer graphene, monolayer graphene grown on silicon carbide substrate). Dimensions of the nanoplates deposited on graphene substrates were compared with the dimensions of the nanoplates deposited on mechanically exfoliated mica and highly ordered pyrolytic graphite flakes used as refer…

0301 basic medicineNanostructureMaterials scienceNucleationlcsh:MedicineSubstrate (electronics)Chemical vapor depositionTOPOLOGICAL INSULATORGRAIN-BOUNDARIESArticlelaw.invention03 medical and health scienceschemistry.chemical_compoundTHIN-FILMS0302 clinical medicinelawSilicon carbide[CHIM]Chemical SciencesPyrolytic carbonThin filmlcsh:ScienceMultidisciplinaryGraphenelcsh:R030104 developmental biologySINGLEchemistryChemical engineeringGROWTHlcsh:Q030217 neurology & neurosurgeryScientific Reports
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