Search for tag: "laboratory equipment"

Nuts and Bolts of Oxide MBE #1 (Schlom)

2019 Cornell Summer School LINK to presentation slides

former components of the dow jones industrial averagenonmetalsminimum temperaturehigh temperaturelow vapor pressurea.t.m.chemical elementsnitrogencommon oxide glass componentsfood coloringsfully electronicvideo camerarunaway reactionmagnesium oxideliquid leadstainless steelinorganic compoundsmetallurgythermodynamicsreducing agentsm.b.e.phases existpyrotechnic fuelsarsenide surfacematerials sciencesubstrate temperaturesolid solution1st principlesface diagramoxidescoolantsiron oxide1st thingsurface chemistrygelsoxygenelementary geometryphases of mattertitanium spheresuper latticediffusion linkopium oxidefully automatedphase diagrambulk diffusionthermodynamic datachemical mixturesstatistical mechanicsenergygas cabinetoptical materialsliquid nitrogeniii-v compoundstransition metalssurfaceshollow sphereoxygen moleculargroup ratecell biologyozone compatiblecameraschemical propertiespipingunion carbidebiology and pharmacology of chemical elementskinetic theoryhigher temperaturebarium oxideelectron beamreference bookelementary shapesgrowth modepressurevapor pressurelow surface energycoop ratesthermal massbuilding materialsgallium arsenide exposednatural resources100 degrees2000 degreesfree pathwater cooledhigh vapor pressureellingham diagramsingle crystalsmaking coopermineralogysurface diffusionr.c.a. laboratoriesecologygallium arsenideprops guyenvironmenthigh surface energyoxidize thinggasesantacidscrucible problemm.b.e. growntopologydiagramsphase transitionsm.b.read oscillationsr.c.a.diffusion lengthface separatingchemical engineeringsafety committeerefractory materialssteelphysical quantitieshigher surface energydepends exponentiallyequilibrium chemistryfree energysilica gelnice smoothcooking techniquesanalytic geometrytungsten filamentlower temperaturecrazy oxideaction contentanalytical chemistrymetalssmooth filmcaption completeozone generatorgood thinggood cruciblealuminum arsenideperiodic tablemeteorologyoxidizing agentslaboratory equipmentsemiconductor materialsarsenidesgrowth ratediffusion coefficienthigher surfaceenergetic specieshydraulicsaction pressureoxygen pressureiarc group 1 carcinogensalkaline earth metalssurface energydiffusionfusion cellzinc oxidelow temperaturegood choice1000 timesreciprocal temperaturemolecular beamsplumbingsafety issuesnice purevalves
From  James Overhiser on August 7th, 2019 70 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 79 plays

Diffraction (Part 2)

2017 PARADIM Diffraction part 2 David Muller

central beamnoise sourceaperture sizen.c.concepts in physicsideal d.q.2nd thingreadout noisehigh dynamic rangemental planethermal noiselong timechannel gain variationsquantum electrodynamicsdigital imagingcount rateoptical devicesfraction patternpico ampslong rangebiological imagingrange electric fieldshuge amountsignal processinggeologyd.p.photographythin pixelmagnetic fieldhole pezc.c.d. cameraelectronicspoisson distributiondiffraction patternelectron hopepoint spread function200 kilovolts$16.00 pico ampsneighboring pixelsquare rootmass signalstandard deviationdetective quantum efficiencyspatial frequencyopticsreal spaceresearch methodsenergy distributionmagnetic ripplesd.q.single electron sensitivityparticle physicsnarrow pixelspace measurementslowly varyingabled sphereatomic physicsimaging modeelectric fieldenergy depositedminus sigmapretty goodemerging technologieselectron beamnoisedynamic rangepoint $16.00 picomagnetismdock noisesoft moonk.v.pulse counting detectorlastic imaging modese.q.low energypretty darn goodelectrons arrivemicron pixelfire electronrandom noisemicroscopesperfectly lineardiscrete distributionselectron producesmass imagepercent variationtechnical detailselectron hole payq.e.statisticselectrostaticselectronics terminologyquantum mechanicsfield imagesingle actorideal detectormultiple pixelsgrain contrastsystems theoryelectron hole1st timehigh count ratescharge carriershuge numberdiffraction spotphysical quantitiesdigital photographyfull diffraction patternnoise timepulse countingbeam energyhigh voltagesoutput noisemilli 2nddynamical systemsoutput signallow count ratedimensional datadigital signal processingmomentum transfercaption complete$150.00 microninformationpixel array detectorc.c.d.1000 electronslaboratory equipmentcyberneticsatomic resolutionscientific methodfinite sizefundamental limitnoise ratiofraction spotquantum chemistryt.m.dataevaluation methodselectromagnetismmomentum operatorincident electrondiffractionprobability current flowrough rulebeam currentwave functiondiffraction work
From  James Overhiser on February 15th, 2019 15 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 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 71 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