Search for tag: "atomic spectrum"

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

Electron Tomography - Theory

2017 PARADIM SUMMER SCHOOL Tomography Theory Ercius

cartesian spacedimensional spacedimensional thingscale tomographydimensional reconstructionprojection requirementsolutionsextremely high resolutionoriginal imagephysical sciencemaximum tiltingtilt serieslong timeelectron microscopyelectron tomographycompressed sensinginverse nanometersscientific techniquesdimensional structurematerials scienceequal anglesignal processingconcepts in physicsphotographylow dose1st thingpoint defecthigher frequencysingle projectiondiffraction patternpretty goodmicroscopyneedle samplebig differencefree transformoriginal objectspatial frequencyvisioncarbon atomreal spaceadam countingreciprocal spaceemerging technologiescatf.f.t.dimensional imageperfect projectionsoriginal projectionatomic physicsprojected densityexperimental projectionsnano particlesstemmedical imaginghigh resolutioncarbongood reconstructionoriginal projection directionunique objectaberration correctedatomic scalebeam electronsexperimental datatilt axisoriginal intensitynanometer depthpseudo polarmicroscopesreconstruction techniqueprojection operationlow frequencyradio spectrumequally slope tomographyquantum mechanicskinematicsconcentric squarescat scanhigher dimensionalquantum dotanalytic geometryiterative loopentire imageequal distanceiterative algorithmclassical mechanicsdigital photographycalled equally slopelinear algebragrand challengesingle particlesimpler interpellationdimensional objectgeometry limitationhigh tiltsnano scalephoria transformenglish alternative rock groupsresolution tomographyreconstruction packagesbuilding blockcaption completedigital geometrycomputer graphicsfree spacereconstruction algorithmimprove reconstructionshigh frequencyatomic resolutionprojection imageshell particlecohen resolutiondimensional picturesine wavecrystallographic defectst.m.advanced algorithmsiterative processmissing wedgeinformation theorycontinuous functionmaterial sciencetomography experimentbroadcastingmasssample thingselementary mathematicschemistryelectron microscopenanomaterials
From  James Overhiser on February 15th, 2019 7 plays

Linear Imaging Theory

2017 PARADIM Linear Imaging Theory Robert Hovden

d.n.a.dark fieldaperture sizeobject functiontotal intensitycollaboration increasesconcepts in physicsconvergence angleareaspherical aberrationwide rangecovering todaygeometric shapesd.n.a. structurecentral minimumelectron microscopyfocal pointintensity increaseslinear imaging modelwave vectorscontrol theoryoptical devicescollection anglelarger apertureelectron microscopehigh anglearchitectural elementssignal processingphotographyhigh pass filtertransfer functionuncorrected systemphase shiftdarkfield regimefunctional formscattered electronshigher frequencybright field stemegyptian artefact typesdiffraction patternscience of photographypoint spread functionhigh intensity probeelementary geometryintegralsspatial frequencyopticsobjective lensbright field regimebright spotsreal spacelow frequencyreciprocal spaceblurring contributionsphere collaborationuncorrected instrumentcharacteristic dimensionincoherent imaging conditionsurfacesaperture functionwave frontatomic physicsimaging modecontract transfer functionwhite noisescanning transmission electroncohere imagingprevious lecturedistant planeelementary shapesstemhigher angleshigh resolutionincoherent linear imagemil ratingdetector geometriesfield conegeometrytypes of functionsaberration correctedconstant phaselengthlower frequencieschromatic aberrationconic sectionsamplitude squaredaberration freescientific techniquesmicroscopesmeasuring instrumentsintensity squaredoptic axisintensity decreasescontrast transferdiffraction limitstem imageindividual atomradio spectrumincoherent imagingquantum mechanicsaberration free probemultivariable calculuspeople metersfocal planebright fieldlow angleamateur radiosystems theoryimage planecoherent imaging conditioncollecting electronsblurring functiontransmission electron microscopyphysical quantitiesdigital photographyangular spreaddouble integralcoherent imaginglargest rangeface shifthigher order aberrationsraleigh criterionpiofairly interpretabletransmission electron microscopesquare pulsegeometrical opticsdigital signal processing1st ordercaption completeprobe tailsnyquist limitblue curvesubroutinesbroadcastingfilter frequency responsemaximum frequencyhigh frequencycaustic curvehand sidelow pass filterspatial coordinatesatoms closercoherent imagesparrow criterionstructural systempico meterdark backgroundfrequency spaceoptimal aperturet.m.complex conjugatecontrast transfer functionwave functionmeasure ultimatelyimaging conditionannular darkfieldincoherent imaging modeatomic numberfield stematomic columninelastic interactionsnobel prizeangle mediumchemistryfocal imagingprobe size
From  James Overhiser on February 15th, 2019 13 plays

CAM Colloquium, 2014-01-31 - Guillaume Bal: High-contrast High-resolution Coupled Physics Imaging Modalities

ultrasoundmaterialsengineeringradioactivitycamspecification languagessoundcomputer systemselectromagnetic radiationsymbolsphysical sciencessystems scienceguillaume balcornellp.d.mathematical objectsnatural sciencesgreek alphabetcolorinteractionequations of physicsvector calculusgeneticsimage processingequationproblemacousticsfunctioncommunicationcontrol theoryscientific methodphysical objectsnuclear physicsphotometrycaption completeidealismmechanicsquantum electrodynamicssheer wasteeconomic anthropologysend lighttissueinformation sciencemetalsimaginationsystemsset theoryseafoodlatin alphabetwirelesslinear operators in calculusevaluationpersonal lifeinformation theorystatistical theorygroup theorylogical consequencereasoninglinear algebramental structuresreligionpolynomialsforestrylightstatistical terminologyinteresthearingcomputing terminologyu.t.m.r.i.high contrastmedical terminologynuclear magnetic resonancemeteorologylight coner.p.gelementary algebranatural resourcesmeasurementmedical imagingorgansmassdeterminantsreconstructionphotographybankingpartial differential equationsconditionstructural systembroadcastinghealthelectronicsoccupational safety and healthpropertycomputer programmingalgebracreativitycomputer graphicsarchitectural elementsopticsparticle physicsknowledge representationlow contrastreconstructhigh resolutiondifferential topologymedical physicsgrammarinverse problemcontrastvisionfood ingredientsphysicsanatomyphotonsyntactic entitieseuropean space agencyphilosophy disambiguationcontinuum mechanicselectromagnetismradio spectrumatomic physicsuniversevaluepapermakingmatterapplied mathematicsphysical cosmologyartificial satellites orbiting earthsystems theorymathematical analysisforceresolutionbusiness lawaccountancyscatteringnatural philosophyinfinityapplied and interdisciplinary physicsexistentialist conceptsmechanical vibrationsquestionaestheticsclassical mechanics
From  E. Cornelius on June 29th, 2017 0 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 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 55 plays