Search for tag: "current field"

General Fusion meeting

meetingsconcepts in physicsscience and technology in spainfusion conceptspower plant scaleconference roomnice dayfull scaleawful lotheat transferdensityelectricityatmospheric thermodynamicsthermodynamicsreducing agentstechnology companies of canadamain issuetime scalemagnetic fieldlr482hebrew bible words and phrasesimpermeable impermeablelarge scalechemical elementsbankingphases of mattercooking techniqueselectrode materialplasma directorlead looptime framelow level wastesoft hardplywood injectorhuman communicationinteresting materialsnuclear fusion fuelscompression timechemical kineticsnuclear materialsbiology and pharmacology of chemical elementsreal challengepretty goodwest coastwaste problemlower temperaturemagnetismmeter diameterheat exchangerbuilding materialsfusion conditionsliquid metalgeometryfriday afternoonlengthpower plant pointcomposite materialsfusion energyhigh currenthorticulture and gardeningmolten leadthermal eyeslead lithiumpower supplygood lucktransition metalsimage processingplant scalereading ratiomanagementenginesflow rateisotopes of hydrogenenergyaccountancyphase transitionsmetal platingchemical engineeringthreshold temperaturesphysical quantitiesworking fluidreaction ratelive gamemetal systemsneutron multiplier1st wallstate functionsmetalscaption completelong periodstructural wallgeneral fusionthick blanketdiffusion barriercavity formation systemcirclesouter constraintalgebrapower plantadditive manufacturingdwell timedebtelementary geometryneuroscienceregulatory pointneutron damageelectromagnetismmelting pointlow temperaturecurrent densityelementary mathematics
From  Laura Ricciuti on September 20th, 2019 14 plays

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 21 plays

2017 REU Daniel Teal CNF HHMI KEP PARADIM REU Nano-Convocation

d.n.a.laser diffractionu.v.positive resistchemical compositiontiny moleculesconcepts in physicssilicon dioxidechemical elementspressure dropbiological functionmirror stacktop-level domainselectric potentialcnfi.t.t.l.d.electricityd.v.r.optical devicesreducing agentsmoleculesphoto resistsignal processingtaper channelsmooth surfaceoxidesopposite directionprotein spotinitial pressuredistributed bragsocial conceptsp.d.s.cognitionmicroscopydigital electronicselectric fieldelectrical componentspretty coolbacterial mechanicsfluid flowelectrons movingelectric currentbeam scatteringfrequencydesignmeasurementelectrodebacteriamachinescell biologyoptical microscopesubstract printinternational technology roadmap for semiconductors lithography nodesreucurrentpretty goodplasma cleannormal electronicmolecular machinesdouble helixcrystal qualityanthropologytuning forkstamping methodextrusion loadingelectrical currentgeometryelectric materialimmune cellsk.p.h.300 nanometerpolymer brusheselectronic signalimage processing$0.00 nanometerselectrostaticsfictionliterature valuesmegahertz wavemolecular biologyelectronic devicetransistord.v.r. stacksdeep u.v.unique mechanical propertiessoundphysical quantitiesmotor proteinsnanometer protein spotssemiconductor device fabricationelectronic circuitsnegative resistd.n.a. bindingmatterprintingultra smooth surfacespectroscopyelectrical engineeringmechanicsstate functionsmechanical systemsilicon wafergraphenesingle moleculeincubation timecrystalsmetaphysicscaption completecarbon formsdocumentssandwich structureatomic layer depositiondiffraction gratingpotentialinside talkselectricacoustic wavegold electrodesdevicemediasiteelectromagnetismphotonicsside walldiffractionwallspattern protein$25.00 k.p.h.mass mediabehaviorismbiotechnologychemistrytantalum oxidepolymer chains
From  James Overhiser on February 18th, 2019 5 plays

2017 REU Dante Avalos CNF HHMI KEP PARADIM REU Nano-Convocation

d.n.a.laser diffractionu.v.positive resistchemical compositiontiny moleculesconcepts in physicssilicon dioxidepressure dropbiological functionmirror stackelectric potentiali.t.t.l.d.electricitycherryd.v.r.optical devicesmoleculesstainsignal processingtaper channelsmooth surfaceoxidesopposite directionprotein spotinitial pressureuniquedistributed bragsocial conceptsp.d.s.cognitionproteinsmicroscopyelementary geometrydigital electronicselectric fieldpretty coolbacterial mechanicsfluid flowelectrons movingelectric currentbeam scatteringdesignsingle moleculehappenbacteriamachinesmechanical propertiesgeneticscell biologyoptical microscopesubstract printinternational technology roadmap for semiconductors lithography nodesreucnfinternetpretty goodmethodplasmidplasma cleannormal electronicmolecular machinesdouble helixcrystal qualityanthropologycontroltuning forkcontaminationstamping methodextrusion loadingchangetopologygeometryelectric materialstudiesk.p.h.fantasticcolor300 nanometerpolymer brusheselectronic signalimage processing$0.00 nanometerselectrostaticsquestionfictionattachelectrical currentliterature valuesmegahertz wavemolecular biologyelectronic deviced.v.r. stacksdeep u.v.unique mechanical propertiesphysical quantitiesmotor proteinsnanometer protein spotssemiconductor device fabricationelectronic circuitsnegative resistd.n.a. bindingmatterprintingultra smooth surfacespectroscopyelectrical engineeringgroovemechanicsmechanical systemprocesssilicon waferbindingsurfacecharacterizeincubation timecrystalsproteinmetaphysicscaption completedocumentssandwich structureatomic layer depositiondiffraction gratingpotentialinside talkspicturelaundryacoustic waveoptical spectrumgold electrodesmediasiteelectromagnetismphotonicsimmune cellsside walldiffractionwallspattern protein$25.00 k.p.h.photo resistbehaviorismbiotechnologychemistrytantalum oxidepolymer chains
From  James Overhiser on February 18th, 2019 0 plays

2017 REU Monica Lopez Martinez CNF HHMI KEP PARADIM REU Nano-Convocation

d.n.a.laser diffractionu.v.positive resistchemical compositiontiny moleculesconcepts in physicssilicon dioxidepressure dropbiological functionadjustmentmirror stackelectric potentialcnfi.t.t.l.d.electricityd.v.r.optical devicesmoleculesmagneticsignal processingtaper channelsmooth surfaceoxidesopposite directionprotein spotinitial pressuredistributed bragsocial conceptsp.d.s.cognitionproteinsmicroscopydigital electronicselectric fieldpretty coolbacterial mechanicsfluid flowelectrons movingelectric currentbeam scatteringdesignsingle moleculetetherbacteriamachinescell biologyoptical microscopesubstract printinternational technology roadmap for semiconductors lithography nodesreuincreasepretty goodplasma cleanelectron beamnormal electronicmolecular machinesdouble helixcrystal qualityanthropologytuning forkstamping methodextrusion loadingpropertieselectrical currentgeometryelectric materialamountimmune cellsk.p.h.features300 nanometerpolymer brusheselectronic signalimage processing$0.00 nanometerselectrostaticsspotsfictionliterature valuesmegahertz wavemolecular biologyelectronic devicesurfaced.v.r. stacksdeep u.v.unique mechanical propertiesprotocolsphysical quantitiesmotor proteinsnanometer protein spotssemiconductor device fabricationelectronic circuitsnegative resistd.n.a. bindingmatterprintingultra smooth surfacespectroscopyelectrical engineeringmechanicsmechanical systemsilicon wafercurvesincubation timecrystalsmetaphysicscaption completedocumentssandwich structureatomic layer depositiondiffraction gratingpotentialinside talksmoleculeacoustic wavegold electrodesmediasiteelectromagnetismphotonicsside walldiffractionwallspattern protein$25.00 k.p.h.photo resistbehaviorismbiotechnologychemistrytantalum oxidepolymer chains
From  James Overhiser on February 18th, 2019 0 plays

2017 REU Michael Klaczko CNF HHMI KEP PARADIM REU Nano-Convocation

d.n.a.laser diffractionu.v.positive resistchemical compositiontiny moleculesconcepts in physicssilicon dioxidechemical elementspressure dropbiological functionscatteringmirror stackelectric potentiali.t.t.l.d.electricitytransparentd.v.r.optical devicesmoleculessignal processingtaper channelsmooth surfaceoxidesopposite directionprotein spotinitial pressuredistributed bragside wallssocial conceptssubstratep.d.s.cognitionmicroscopyspecificdigital electronicselectric fieldbrushpretty coolbacterial mechanicsfluid flowelectrons movingelectric currentbeam scatteringdesignsingle moleculewavelengthbacteriamachinescell biologyoptical microscopedietary mineralsimage processingsubstract printinternational technology roadmap for semiconductors lithography nodesreucnfpretty goodplasma cleanoccupational safety and healthnormal electronicmolecular machinesdouble helixcrystal qualityanthropologytuning forkstamping methodextrusion loadingtopologygeometryelectric materialimmune cellsk.p.h.300 nanometerpolymer brushestransition metalselectronic signalchromium$0.00 nanometerselectrostaticsquestionfictionelectrical currentliterature valuesmegahertz wavemolecular biologyelectronic deviced.v.r. stacksdeep u.v.unique mechanical propertiesphysical quantitiesmotor proteinsnanometer protein spotssemiconductor device fabricationelectronic circuitsnegative resistd.n.a. bindingmatterprintingultra smooth surfacespectroscopyelectrical engineeringmechanicsmechanical systemprocesssilicon wafersurfaceincubation timecrystalsmetaphysicscaption completedocumentssandwich structureatomic layer depositiondiffraction gratingpotentialinside talksacoustic wavegold electrodesmediasitestructureelectromagnetisminitiatorphotonicsside wallspacediffractionwallspattern protein$25.00 k.p.h.photo resistbehaviorismbiotechnologychemistrytantalum oxidepolymer chains
From  James Overhiser on February 18th, 2019 0 plays

2017 REU Gabriel Guisado CNF HHMI KEP PARADIM REU Nano-Convocation

d.n.a.laser diffractionu.v.positive resistchemical compositiontiny moleculesconcepts in physicsresistancesilicon dioxideexperimentspressure dropindustrial processesbiological functionmirror stacktop-level domainselectric potentialcnfi.t.t.l.d.electricityd.v.r.optical devicesmoleculessignal processingdistancetaper channelsmooth surfaceoxidesopposite directionprotein spotinitial pressurepenetrateinfectious diseasesdistributed bragconditionsocial conceptsp.d.s.cognitionmicroscopydigital electronicselectric fieldpretty coolbacterial mechanicsfluid flowelectrons movingelectric currentbeam scatteringdesignsingle moleculebacteriamachinesfluid dynamicscell biologyoptical microscopesubstract printinternational technology roadmap for semiconductors lithography nodesreuincreasepretty goodplasma cleannormal electronicmolecular machinesdouble helixcrystal qualityanthropologytuning forkstamping methodextrusion loadingelectrical currentgeometryelectric materialimmune cellsk.p.h.300 nanometerpolymer brusheselectronic signalimage processing$0.00 nanometerselectrostaticsquestionfictionexposureliterature valuesmegahertz wavemolecular biologyelectronic deviceinfectiond.v.r. stacksdeep u.v.unique mechanical propertiesphysical quantitiesmotor proteinsnanometer protein spotssemiconductor device fabricationelectronic circuitsnegative resistd.n.a. bindingmatterprintingultra smooth surfacespectroscopyelectrical engineeringside wallmechanicsstate functionsmechanical systemsilicon waferincubation timecrystalsmetaphysicscaption completedocumentssandwich structureatomic layer depositiondiffraction gratingpotentialinside talksconstrictionphotographychannelacoustic wavegold electrodesdevicemediasitefluid mechanicselectromagnetismphotonicsprofessordiffractionwallspattern protein$25.00 k.p.h.photo resistbehaviorismbiotechnologychemistrytantalum oxidepolymer chains
From  James Overhiser on February 18th, 2019 1 plays

2017 REU Jonathan Chandonait CNF HHMI KEP PARADIM REU Nano-Convocation

d.n.a.laser diffractionu.v.positive resistchemical compositiontiny moleculesconcepts in physicssilicon dioxidepressure dropbiological functionreumirror stackelectric potentiali.t.t.l.d.electricityabsorptiond.v.r.optical devicesmoleculessignal processingtaper channelmaterialsmooth surfaceoxidesopposite directionprotein spotinitial pressuredistributed bragsocial conceptssubstratep.d.s.cognitionmicroscopydigital electronicselectric fieldopticspretty coolbacterial mechanicsfluid flowphilosophical terminologyelectrons movingelectric currentbeam scatteringdesignsingle moleculewavelengthphoton reflectionsnanometerbacteriamachinescell biologyoptical microscopesubstract printinternational technology roadmap for semiconductors lithography nodesthicknesscnfpretty goodplasma cleannormal electronicmolecular machinesdouble helixcrystal qualityanthropologytuning forkstamping methodextrusion loadingelectrical currentchemical processesgeometryelectric materialrefractionimmune cellsk.p.h.300 nanometerpolymer brusheselectronic signalimage processingreflector$0.00 nanometerselectrostaticsopportunityfictionliterature valuesmegahertz wavemolecular biologyelectronic deviced.v.r. stacksdeep u.v.unique mechanical propertiesproject managementphysical quantitiesmotor proteinsnanometer protein spotssemiconductor device fabricationelectronic circuitsnegative resistd.n.a. bindingmatterprintingultra smooth surfacespectroscopyelectrical engineeringproblemmechanicsmechanical systemd.b.silicon waferincubation timecrystalsmetaphysicscaption completedocumentssandwich structureatomic layer depositiondiffraction gratingroughnesspotentialinside talksacoustic wavegold electrodesmediasitecompatibilityelectromagnetismphotonicsside walldiffractionwallspurificationpattern protein$25.00 k.p.h.photo resistbehaviorismbiotechnologychemistrytantalum oxidepolymer chains
From  James Overhiser on February 18th, 2019 1 plays

2017 REU Jacob Waelder PARADIM REU Nano-Convocation

From  James Overhiser on February 18th, 2019 5 plays

2017 REU Morgan Grandon 2017 PARADIM REU Nano-Convocation

From  James Overhiser on February 18th, 2019 4 plays

2017 REU Daniel Bouman 2017 PARADIM REU Nano-Convocation

From  James Overhiser on February 18th, 2019 11 plays

Ronchigrams

2017 PARADIM SUMMER SCHOOL Ronchigrams Peter Ercius

aperture sizedark field detectorconcepts in physicssmaller probespherical aberrationlargest probegraduate schoolguy namedhigher orderstrong magneticlong timeelectron microscopyorder termsphase changezone axispretty easyspecimen opticsoptical devices0.11 nanometersfraction patternlocal magnificationlarger apertureelectron microscopecorrected scopeaberration corrected microscopeprevious imagesphotographymagnetic fieldraunchy gramelectronphase shiftstem probeconvergence angleelectron diffraction patterndiffraction patternscience of photographydiffraction spaceelementary geometrypost specimenrate pathsmall screenengstromopticsobjective lenscirclesaberration shapemicrons leftlow frequencynice probecorrected stemsmall amountsemi anglepost specimen lensesinfinite magnificationfocus seriesmonolithic detectorseabed patternranch grahamflat regionatomic physicsaberration corrected scopeelectron lenspretty closea.t.f.focal seriesdiffraction buttonaberration correctoverlap regionbright field detectorlargest aperturehigh resolutionwine glasscarbonk.v.lot simplerimage correctaberration correctedlengthround lens300 k.v.quote unquotelarge focusradio symmetryfocused probeimage processingbbc radio 4 programmescontrast transferecclesiastical titlescentimetre–gram–second system of unitsf.b.i. techphysical opticsimage shiftflat phasemicron diameter aperture200 k.b.geometrical opticsamorphous materialalpha angleaberration correctorc.s.aberration correctionshadow imagesphere collaborationphysical chemistrydigital photographyhigher order aberrationsbeam electron diffractionf.b.i.100 percent2nd ordercsubcaption completestar aberrationcrystallographyanglehigh anglesc.c.d.virtual detectoroptical axisautomated alignmentparticle physicsaberration functionpixilated detectorcomputer visionlens currentatomic resolutioncentral spikeweird aberrationshigher order termsperfect lenst.m.3rd orderpriest specimen lensesk.b.double overlapsi derived unitscorrected microscopediffractionsingle positiontiny bitorder sphericalchemistryconvergent beam electronstem
From  James Overhiser on February 15th, 2019 24 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 14 plays