Search for tag: "device temperature"

2017 REU Vibha Vijayakumar CNF HHMI KEP PARADIM REU Nano-Convocation

From  James Overhiser on February 18th, 2019 6 plays

2017 REU Morgan Grandon 2017 PARADIM REU Nano-Convocation

From  James Overhiser on February 18th, 2019 4 plays

2016 REU Maya Martirossyan PARADIM REU Convocation

rentinginteresting propertieshigh temperatureinteresting applicationsconcepts in physicsside wallschemical elementsflower patternsuperhard materialsthickness2nd designelectron microscopydifferencegeneration devicesexposure timeelectricitymineralogytransparentmetallurgyfunctional groupspyrotechnic fuelsmaterials sciencesuper lotgrain structuresdimensional materialmagnetic fieldelectronnanomaterialsfact data1st thingscattered electronsprecursor flow$4.00 systemlarge scalehexagon systempost-recessioncharge carriersmicroscopy groupmicroscopyatomic lotbankingscale imagecognitionfourfold symmetryopticsl.f. percentagetitanium platinum1st presenterphilosophical terminology210 kelvinselenium atomsdesignmeasurementcrystallographyray diffractionparticle physicscuring agents$210.00 kelvinchemical propertiesreucnfvast majoritysemiconductorscanning transmission electroncharge carrieremerging technologiesmodel layerstatistical terminologydepositionratiosgrain boundarieslattice orientationcolor composite imagegeometrygraphic orientationlined dotselectrical transportmisaligned dotsalpha psicharacterizationsemiconductorsmagnetic propertymicroscopesfuture workthin filmhexagonal latticeresolution imagetransition metalsquantum mechanicstoolshall factartsrural community developmentnatural philosophygrowth processwhite circlequestionphotographic processesfictioncharge careinorganic silicon compoundstransition metalpercentageelectromagnetismquantum dotaccountancyprofessor david$45.00 degreesmagnetismprevious filmp.c.t. toolsilicon nitritegrain orientationtransmission electron microscopyphysical quantitiessilicon nitridecondensed matter physicscircle representssemiconductor device fabricationrectangularconfounding variablesp.c.t.magnetostaticshighly misalignedlayercall factcrystal structureatomic latticefalse color compositesilicon wafernano wiremetalscharacterizedislocation behaviornitridesmetaphysicscaption completel.f.electronic propertiesquantum electronicsdarkfield transmission electrondimensional systemchrome goldflower designsemiconductor materialsatomic resolutionsuper latticesingle materiallocal superlattice mismatchgreen boundariesmediasitefabricationbusiness lawarchitectural designaestheticsmanufacturingaspect ratio$210.00 calvinvoltage dropphoto resist
From  James Overhiser on February 12th, 2019 12 plays

CNF NanoCourses 2004 – Section 3.2: Thin Film Properties,

From  David Botsch on January 20th, 2012 51 plays

CNF NanoCourses 2004 – Section 3.2: Thin Film Properties,

cubic mineralsseparation processesphysical phenomenaenvironmental sciencepyrotechnic fuelsaccountancyconfectionerysteelatmospheric thermodynamicscrystallographycharge carrierspropertynuclear physicssemiconductor device fabricationtransformationssupply chain management termselectronics terminologybodies of watertopologyelectromagnetic radiationalgebrasedimentary rocksaquatic ecologyproperty lawmetal platingwatersnow removalliquidscorrosionconcepts in physicsmanufacturingphysical objectsatomic physicsfuelsnatural philosophyfluid dynamicstemperaturepressureplasma processingphilosophical terminologygeomorphologychemical compoundseducational psychologyphase transitionsfluvial landformschemical engineeringdistributionphilosophy of lawphotographycell biologycoppervolume ratiosystems scienceerosion landformsforms of watersandtechnologygrain boundaryphases of mattermetalshistorical scientific instrumentsfluid mechanicssuperhard materialscarbidessnowpedologyoxidescharacteristiccommunicationtransition metalslaboratory equipmentsolid-state chemistrybiology and pharmacology of chemical elementsnonmetalsconstructionbiomoleculesdiffusionmaterials scienceproduction and manufacturingsemiconductormaterialelectronicsgaseschemical kineticschemistryenergycaption completeelectric and magnetic fields in mattersystems theoryinformationsedimentologydielectricsglasscompound semiconductorscrystalplasma physicssurface chemistryreducing agentsphysiologythermodynamiceconomic anthropologycondensed matter physicsindustrial processeselectric fieldmemoryicecoatingsthermodynamicssemiconductorsprecipitationchemical propertiescontaminationpackaging materialsheat transferbuilding materialsdietary mineralsgrainthin filmnitridesphysical chemistrysurfacecrystalselectricityfilmsmineralogymicroscopesstate functionsmarketingelectromagnetismlogisticspolitical philosophysolutionspoly crystalinformation scienceelectrical conductorsvolumemetallurgydepositionnerve gascomputer sciencevacuumgeometrymolecular physicsmeteorologythin-film cellsindustrysolvents
From  David Botsch on January 20th, 2012 118 plays

CNF NanoCourses 2004 – Section 3.4: Dry Etching (Meredith

state functionsfluid dynamicsconcepts in physicselectrical phenomenacoolantsplasma processingionselectronsystems theoryside wallelectrodeelementary geometryplasmasemiconductor devicesclassical mechanicsiarc group 1 carcinogensmetalspyrotechnic fuelscondensed matter physicsquantum chemistryatmospheric thermodynamicsdecision theorysubstratepotentialcyberneticsaestheticschemical reactionsmagnetismspectroscopyrefrigerantschlorinec.h.f.chemical elementsnonmetalsnoble gasesaudio effectsmoleculesolventsvacuummeasuring instrumentselectronic engineeringcharge carriersopticsphilosophical terminologyreducing agentsnatural philosophymassprocesschemical propertiesphysical chemistrystandardsaccelerator physicssilicon compoundsinorganic compoundstelecommunicationsalgebramolecular physicselectrodynamicsaudio engineeringcapacitorsneurosciencephysical sciencesindustryradio spectrumsemiconductor materialsmoleculesindustrial processeselectrical componentsplasma physicsfluid mechanicsthermodynamicselectric and magnetic fields in matterpressurespecial relativityatomic physicsopen methodologiesmechanicselectronics terminologyhydrogen compoundsfood preservationheat transferoxidesgeographyneurochemistryelectronicschemistryenergy storageastrophysicsparticle physicsc.n.n.halogensbiomoleculeselectromagnetic spectrumtechniquematerials scienceratioselectromagnetismcarbideschemical bondingsi derived unitscalendar erasenergysedimentary rocksthin film depositionsystemstemperaturecoatingselectrical conductorssemiconductor device fabricationnuclear reactor coolantselectricitychemical processesbombardmentscientific techniquespost-transition metalsatomsmetallurgycharacteristicsmultinational companiestypes of magnetsstructurematerialhydrogenresistphases of matteracousticscontinuum mechanicsoccupational safety and health
From  David Botsch on January 20th, 2012 165 plays

CNF NanoCourses 2004 – Section 2.1: Vacuum Science, Pumps

atmospheric thermodynamicssystemsstrategic managementphilosophical terminologysystems theorygame equipmentelectrical engineeringmolecular physicsphysical phenomenatransition metalsnuclear reactor coolantscooling technologylow vacuumsurfacematerials sciencesi base unitsmetallurgyelectronpolitical philosophyfluid dynamicsparticle physicscoolantsventilatingflow rangehome appliancesheat pumpslaser gain mediaareachemical engineeringforms of waterbasic meteorological concepts and phenomenaopticshydraulicssocial conceptspumpssemiconductorsthermodynamicsmicroscopesvacuumdesign of experimentselectromagnetismwater vaporoxygen compoundsmechanicsionsatomic physicstopologymatterheat transfercarbon formsmoleculesphysical sciencespyrotechnic fuelsconcepts in physicselectronics terminologyunderwater diving physicselectricityfuelsheliumpressureaccelerator physicssi derived unitsenergy conversionmoleculefluid mechanicsvolumechemical propertiessystemcaption completecharge carriersand air conditioninggeography terminologymedical treatmentsbiology and pharmacology of chemical elementsatmospherereducing agentsengine technologymetalssensory systemrefrigerantsparts of speechbiologically based therapiesplumbingamountsemiconductor device fabricationnoble gasescontinuum mechanicsindustrial processeschemistrynatural sciencesred moleculemeasurementcyberneticssolutionssemiconductornitrogentemperaturepumpingsocial psychologycold surfacesolventstechnologyheatingmolecularnatural materialsclassical mechanicspower suppliesliquidspolitical science termsphase transitionscausal inferenceairship technologyviscositymeteorologybuilding materialsdietary mineralsmagnetismliquid nitrogenwater transportaircraft engineswatervacuum systemsmassmaterialsphases of mattercryogenicsvelocityseparation processesdielectricsenginesphysiologynonmetalsbiomoleculeslaboratory equipmentbasicallydecision theoryhigh vacuumvacuum pumpscollisionordergasesmeasuring instrumentsscience experimentsphysical chemistry
From  David Botsch on January 20th, 2012 64 plays