Search for tag: "vacuum systems"

From Einstein's Photoelectric Effect to Band Mapping. (Shen)

2019 Summer School

optical spectroscopyenergy electronic structureconcepts in physicsfermi energykilo voltmodern physics classsimple systemtranslational symmetryelectrons insideelectronic structureangle result photocontinuum mechanicsmeasure thingsperpendicular componenthigh energym.b.e.high energy resolutionteachingphoto electronnuclear physicsgood sampleelectrons comingelectron comingmagnetic fieldphoto motionelectronphoto mission experimentradiobiologymain factorselectronics companies of the united kingdomcolor codedcharge carriersprobing depthelementary geometryphoto missionmaterial propertiesbinding energyresult photo missionenergy electronsenergysingle spectrummeasurementsurface sensitivecrystallographyray diffractionsocial sciencesfree carriersleadtennis ballhigh intensitybasically mapbasic principleplane wavethreshold energyreciprocal lotelectronicspretty popularenergy resolutionmaterial systemsmission experimentmomentum conservationfree electron gasanthropologyphysical propertiesmagnetismformally correctoptical transitionband structureplain wavedeep insidehuge numbercore levelsgeometryphoton energydefined energylow energychannel platekey thingtotal momentumconservation lawsquantum mechanicaldipole matrix elementuniversal curvesymmetrysimple relationshipstep modelpolar anglephoto currentmain thingdecision theoryenergy bandphoto mission processtransition matrix elementenergy conservationband massesfree electronlarge energyaccelerator physics100 electron voltspotential barriersudden approximationphoto mission measurementwork functionradiation shieldphoto electrons comingclassical mechanicsmomentum spacephysical quantitiesballscondensed matter physicsphoto machinedischarge lampsingle atomlow energy electroniccouple slidesvalence bandspectroscopyhigher harmonic generationplane momentumphoto lecturemechanicsactual processfamous yearnanometer probingmission processelectron voltsquantum mechanics classcaption completefree spacefeatureless backgroundsample manipulatorcrystal wrightfermi–dirac statisticsthermodynamicshigher energykinetic energyhighest energyvacuum chamberelectronic band structureselectron analyzerplay momentumvelocityquantum chemistrycorrect answerquantum materialselectron momentumelectromagnetismfermi levelurban studies and planningelectron leavingeducational psychologyenergy rangesi derived unitslow temperaturemassquantum mechanicsnobel prizematerial science
From  James Overhiser on August 7th, 2019 22 plays

From Particles to Quasiparticles - Understanding and Measuring Interactions by ARPES. (Shen)

2019 Cornell Summer School

optical spectroscopyinteracting band structuresingle electronscatteringenergy momentumconversion factoroverlap integralsystems theorysystemsm.b.e.special functionsfield theoryphoto electronnuclear physicsenergy distribution curvephoto motionelectronphoto mission experimentcomplex functionelectronicsiraq functionspectral functionenergy scalesphoto missionelementary special functionsbinding energyfairly weakspecific measurementsphilosophical terminologydelta functionelectric and magnetic fields in matterincoherent backgroundparticle physicssingle particle spectralslowly varyingdistribution curveextreme versionlarge datacritical aspectmatrix elementenergy resolutionvarying functionfree electron gasmagnetismlocal objectphoto mission processlegal documentsfree electrontotal energy resolutioncommon lawpopular answerinteracting systemlow energykey thingcutoff frequencycollective modespecific heatvibrational modesystems sciencecolorcommunicationbioinformaticsmeasure interactionseducational assessment and evaluationcyberneticstranscription factorsquantum mechanicsmain thingelectron phoneband structuretypes of functionsgamma factorimaginary partselectronics terminologylong storybasically analyzeenergy dependent broadeninglab sessionblah blah blahband dispersiondidacticselectron photonelectron electron interactiondirect gapmomentum spacephysical quantitiescondensed matter physicsdensity functional theoryelectron bowsphoto mission intensityspectroscopyenergy windowstep functionclear signatureplasma physicsenergy (physics)ultra high vacuummission processspin wavestrong couplingcaption completedirectly calculateplasma frequencyd.s.t.d.f.t.high energyfermi–dirac statisticselectron voltsresolution functionsharp kinkelectronic band structuresgeneralized functionsliquid theorytotal wasteliquid interactionsmission experimentfermi leveleducational psychologylegal terms1000000 electron voltswritingbroad peakevaluation methodselectron vibrational interactionswave function
From  James Overhiser on August 7th, 2019 11 plays

Greatest Hits of MBE (Schlom)

2019 Cornell Summer School LINK to presentation slides

summerindium arsenidekey aspectlead oxideconcepts in physicstemperature techniqueceiling technologycold wallatomic stepsspray canscompound semiconductorsheat transferhot walldensityquantum hallinorganic compoundsseparate sourcesengine technologym.b.e.teachingarchitectural elementsgrowth conditionsarsenic sourceoxidesunit cellsvacuumcritical current densitydiffraction patternlaboratory equipmentsuper latticeindependent controlopticsoscillationhuge differencestep edgebell labsjoseph allisonschool typesfilm reportediii-v compoundsresistivity ratiohardware (mechanical)oxidizing agentsgrowth modeoral communicationjohn arthuralcatel bell laboratoriesspray paintingelectron beamgreat thingdedicated shuttersarsenic richvapor pressurearsenic pressurepressurebroken equipmentlosing arsenicgas phasefaculty memberhigher pressuresunderlying substrategrowth windowmolecular beamgallium arsenidetemperaturehigh mobilitythermodynamicsgasesquantum mechanicssingle phasehigh performancesingle modelelectromagnetismvolatile speciesread oscillationschemical engineeringgreat questionepa taximap attackphysical quantitiescondensed matter physicsmodulation dopingmeteorologysummer schoolelectrical engineeringstate functionsmagnitude higherultra high vacuum$76.00 inchhighest mobilityseparate temperaturecaption completegreat capabilityquantum electronicscopper gasketlong wordsemiconductor materialsbanking termsarsenidesgrowth ratevacuum chambersuperconductivitypayment systemsknife edgeiarc group 1 carcinogensfree pathfusion lengthm.b.educational psychologyzinc oxidelow temperaturenational medale-commerceroom temperatureindia martian nightnobel prizefractional quantum hall
From  James Overhiser on July 30th, 2019 72 plays

McQueen2.mp4

glassdata typesconcepts in physicspsychometricschemical elementssolutionsindustrial processesmorphologyscatteringdifferential calculusheat transferknowledgequantum electrodynamicscontinuum mechanicsatmospheric thermodynamicsthermodynamicsreducing agentsinsulatorteachingpyrotechnic fuelsphysical chemistrymaterials sciencenuclear physicsnuclear reactor coolantsmaterialoxideselectronvacuumrotationiarc group 2b carcinogenspackaging materialsphases of matterchemical engineeringset theoryeuclidean geometrymechanical vibrationsmeteorologyresearch methodsstatistical mechanicsenergymeasurementelectric and magnetic fields in mattercrystallographyparticle physicsfluid dynamicsmatteroxoanionsstatistical theorychemical propertiesatomic physicsresearchhealthevaluationmolecular physicsoccupational safety and healthlocalizationt.v.mathematical objectswatermagnetismcubic mineralsconfigurationphysiologysuperconductortopologybuilding materialschemical processesinteractiongeometryforms of waterthinglengthconservation lawshouse typescountry subdivisionssymmetrymineralogycommunicationand uncertaintycitytemperaturenatural philosophylatticeelectronics terminologynonmetalsquantum mechanicsinformation sciencechangewaroxygen compoundsfunctionmedia formatsmoleculesproblemvolumelogical consequenceconstructionoxidizing agentsbiomoleculesphysical sciencesnoble titlesplantscommercemetallurgyapproximationstetrahedrondietary mineralsunderwater diving physicsdistributioninformation theorymechanicsaestheticsdynamical systemspersonal lifemetalscrystalsphysical objectspost-transition metalsinformationdesign of experimentsscience experimentscurrent countforestrysemiconductor materialsmathematical notationcaption completepollutantspicturefuelsinfinityphilosophy of mathematicsstructurehydraulicsstructural systemquantum chemistryliquidsbaryonsfluid mechanicsdidacticslightlow temperaturediffractionmasselectrical conductorsevaluation methodschemistrybasically
From  Rebecca Vliet on September 12th, 2018 36 plays

CNF NanoCourses 2004 – Section 3.2: Thin Film Properties,

From  David Botsch on January 20th, 2012 58 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 124 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 177 plays

CNF NanoCourses 2004 – Section 4.4: Auger and Thin Film An

metalloidschemical elementsmultinational companiesthermodynamicsbuilding materialselectrical conductorsmeasuring instrumentsopticsphysical chemistrymaterialgroup theoryionstransition metalsmicroscopysystems sciencegeochemistrycarboncartographyoncologynative element mineralssensitivityspectroscopyenergy levelsgallium arsenidecarbon formsmicroscopescondensed matter physicsproblem solvingchemical propertiesiarc group 2b carcinogensmaintenanceergonomicskinematicsquantum chemistryscientific techniquesmass spectrometryanalytical chemistryphases of matterlaboratory techniquessoil contaminationcobolatomic physicsstatistical terminologymaterials sciencereliability engineeringdifferential calculusrefractory materialsobject-oriented programming languagescompound semiconductorsmetallurgycharacteristicvacuumfailureclassical mechanicsmoleculesphysical objectsfood coloringsiarc group 1 carcinogensprecious metalselectronicscoatingsdensityelementary algebrasemiconductor materialsbusiness termsspectrumconcepts in physicselectromagnetismheat transferphilosophical terminologyhouse typescharacterizationdietary mineralsenergy (physics)c.h.f.occupational safety and healthnonmetalsmolecular biologyscientific terminologytransitionpyrotechnic fuelsquantum electrodynamicsmeasurementelectromagnetic radiationtoxicologyteratogensparticle physicssampleindustrial processescontinuum mechanicschemical reactionscharge carrierscaption completeelectronquantum mechanicsforms of energygeographynuclear physicspnictogenschemistryenergy conversionscatteringthin filmsmolecular physicssystems theoryreducing agentscomputer programmingprogramming languageselectrodes
From  David Botsch on January 20th, 2012 56 plays

CNF NanoCourses 2004 – Section 2.2: Vacuum System Performa

calorimetryseparation processesphysical phenomenaconductivityscience experimentsflow metersatmospheric thermodynamicselectrical componentscharge carrierspropertynuclear physicsproperty lawmeasureelectronelectronics terminologypressure gaugeschemical engineeringsystemheat lossmetrologymeasurementmarketingalgebraideal gaslaboratory equipmentliquidsscientific methodconcepts in physicselementary algebraopticsoxidizing agentsfuelsdesign of experimentsfluid dynamicsoccupational safety and healthtemperatureelectronic engineeringphilosophical terminologycurrenthigh pressureradiationbroadcastingphase transitionsbasic meteorological concepts and phenomenagas lawsand air conditioningconvectionhigh vacuumamountpower supplymatterelectrodesheat conductionmagnetismventilatinggaugeorderexperimentsunderwater diving physicsphases of mattermetalsfunctionbusiness termsthermometersfluid mechanicssystems scienceorders of magnitude (volume)thermodynamicselectromagnetic radiationvacuum systemhydraulicsbiology and pharmacology of chemical elementsnonmetalsmaterialatmospherequantum chemistryfashion accessoriesbiomoleculescontrol theorymechanical engineeringmaterials sciencetransducerselectronicsclassical mechanicsgasesparticle physicspressurechemistryenergycaption completecontinuum mechanicsmeasuring instrumentssystems theoryelectrical engineeringweatherdielectricsfossil fuelsmoleculessurface chemistryreducing agentscharacters created by jack kirbyionssi base unitsindustrial processespotentialthermodynamic processesdynamical systemscommercial item transport and distributionelectronic circuitstransport phenomenanoble gasesglass applicationsvacuum systemschemical propertieschemical processespumpscapacitorsmoleculeresistive componentsdensitymassdietary mineralstopologyoil refiningphysical chemistrysurfacecoolantselectricitydata managementbuilding materialsgreenhouse gasesprocesselectromagnetismwater moleculealloysgas technologiesmass spectrometrysolutionselectronics manufacturingmechanicsheat transferreproducibilityvolumemetallurgyvacuummolecular physicsmeteorologythin film depositionheatingprocess managementpost-transition metalssolventsnatural resources
From  David Botsch on January 20th, 2012 70 plays

CNF NanoCourses 2004 – Section 2.2: Vacuum System Performa

structural engineeringcharge carriersoxygen compoundsforms of waterwater in gaslengthtransport phenomenametallurgymattersourcewatertemperaturevacuumelectronic amplifiersvalveschemistryeuphemismssubatomic particlesscatteringdietary mineralsspectrometerclassical mechanicscontinuum mechanicsmagnetismstaticsindustrial processessystems theoryhydraulicsglaciologymolecular physicscontrol engineeringnatural resourcesmultiplierlaboratory equipmentcondensed matter physicshand toolsmeasurementvacuum pumpschemical engineeringelectrical conductorsphases of matterconcepts in physicselementary mathematicsanalytical chemistryatmospheric thermodynamicsfuelsatomic physicssurfaceflangeopticsnitrogenoccupational safety and healthmoleculepumpsmass spectrometrycontaminationtoolslightmeasuring instrumentsvaporreducing agentsoxidizing agentscyberneticsmechanicsquarksmicroscopesmedical terminologysensory systemionsseals (mechanical)audio engineeringquantum electrodynamicseyeforceapplied and interdisciplinary physicsspectrometersvalvedielectricsbuilding materialselectromagnetismheat transferphilosophical terminologysemiconductor devicessemiconductorsaudio effectsphotographybiology and pharmacology of chemical elementswoodworkingelectrodesplumbingfilter theorysystems engineeringtransition metalsfuel gaskinematicsphysical sciencesgroup theorynuclear power plant componentsspectroscopyscientific terminologyupper limb anatomybuilding engineeringmaterials sciencegeometrycomputer graphicsaccelerator physicsgasesparticle physicselectronengine technologyprocesshazardous air pollutantselectricityratioselectronic circuitsmeteorologyvacuum systemchemical propertiesengineeringnonmetalspipingscientific techniqueselectromagnetic radiationphysical chemistrypsychrometricsneurological disordersmechanical engineeringpneumaticshydrocarbonpotentialelectronicsbiomoleculesenergymasspressureglass applicationshepatologylinear filtersplantsquantum mechanicssignal processingsystemglasscontrol theoryfluid dynamicssufferingnuclear physicssolutionsfluid mechanicsnatural philosophyoxidesthingsteelthermodynamicsmaterialmetalsstainlessgreenhouse gasesvacuum systemshistorical scientific instrumentswater vapormoleculesalgebra
From  David Botsch on January 20th, 2012 43 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 72 plays

CNF NanoCourses 2004 – Section 3.8: Wet Etching, Part 1 (P

industryforms of waterwater in gasammonium compoundsmetallurgyfood ingredientsmaterialstemperatureplasma processingvacuumchemical kineticslightingchemical compoundsand uncertaintydietary mineralshydroxidesgeography terminologycommunicationatmosphereventilatingcontinuum mechanicshydrogen compoundsl.p.c.industrial processessystems theoryhydraulicswindscrystallographycorrosionchemical engineeringchalcogensstate functionschemical propertiesmineral acidsquality controlinformation scienceanionsanalytical chemistryatmospheric thermodynamicscrystalsethologygasessolventsrefrigerantssulfurroom temperaturereducing agentshydrogenalchemical processesoxidizing agentsicealchemical substancesknowledgelaboratory techniquesnitridesoxidesiliconinformationbuilding materialsnonmetal halidesheat transferphilosophical terminologywaferhome appliancesoxide filmphysical chemistrymetalloidsinorganic solventspyrotechnic fuelschemistryseparation processesplumbingbathroomshigh temperaturechemical elementsphysical sciencescaption completeeconomic theoriesbuilding engineeringmaterials sciencesolutionsprocessmicronhazardous air pollutantselectricitysubstrateelectronics terminologymanagementfluoridesoxidationoxygen compoundsnonmetalsmarketingrefractory materialsheatingphotographic chemicalsnuclear fusion fuelsdegreecryptographydisplay technologyimperial unitsequilibrium chemistryh.f.information theorycarbon dioxideprintingmassdry actionsecuritysystemsproduction and manufacturingmineralogyc.n.n.organometallic chemistrymanufacturingc.b.d.semiconductor device fabricationand air conditioningfluid dynamicsirondesign for xfluid mechanicsoxidesthingpressureapplicationchloridesbaseslegal doctrines and principlesmetalsoxoanionsgreenhouse gases
From  David Botsch on January 10th, 2012 82 plays