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07:51 2019_NNCI_REU_Presentations_-_Julia_Trowbridge 2019_NNCI_REU_Presentations_-_Julia_Trowbridge	2019_NNCI_REU_Presentations_-_Julia_Trowbridge future work specific point web colors philosophical terminology concepts in physics i.r.chemical elements state functions solutions crystals metaphysics caption complete heat transfer single crystal temperature thermodynamics i.r. lasers measurements chemical properties instrument biochemistry insulator infographics conductive charge carrier synthesis zinc telluride materials science thermal conductivity material dietary minerals specific surface electron physical quantities inversion telluride university energy levels charge carriers electricity energy landscape valence band logical kind From James Overhiser on August 16th, 2019 1 plays
10:15 2019_NNCI_REU_Presentations_-_Carolyn Fenele 2019_NNCI_REU_Presentations_-_Carolyn Fenele	2019_NNCI_REU_Presentations_-_Carolyn Fenele state functions superconducting strontium concepts in physics resistance superconducting thin film measurement filename extensions crystallography ray diffraction caption complete heat transfer temperature growth process cooper pairs atomic physics quantum mechanics reducing agents systems spintronics super conduct capping layer materials science unconventional superconductivity structure material electron project management systems theory superconductor physical quantities substrate diffraction characteristic charge carriers chemical elements science experiments length room temperature transition temperature correlation elementary mathematics electronic transport measurements characterizing From James Overhiser on August 16th, 2019 0 plays
01:11:49 From Einstein's Photoelectric Effect to Band… From Einstein's Photoelectric Effect to Band Mapping. (Shen)	From Einstein's Photoelectric Effect to Band Mapping. (Shen) 2019 Summer School optical spectroscopy energy electronic structure concepts in physics fermi energy kilo volt modern physics class simple system translational symmetry electrons inside electronic structure angle result photo continuum mechanics measure things perpendicular component high energy m.b.e.high energy resolution teaching photo electron nuclear physics good sample electrons coming electron coming magnetic field photo motion electron photo mission experiment radiobiology main factors electronics companies of the united kingdom color coded charge carriers probing depth elementary geometry photo mission material properties binding energy result photo mission energy electrons energy single spectrum measurement surface sensitive crystallography ray diffraction social sciences free carriers lead tennis ball high intensity basically map basic principle plane wave threshold energy reciprocal lot electronics pretty popular energy resolution material systems mission experiment momentum conservation free electron gas anthropology physical properties magnetism formally correct optical transition band structure plain wave deep inside huge number core levels geometry photon energy defined energy low energy channel plate key thing total momentum conservation laws quantum mechanical dipole matrix element universal curve symmetry simple relationship step model polar angle photo current main thing decision theory energy band photo mission process transition matrix element energy conservation band masses free electron large energy accelerator physics 100 electron volts potential barrier sudden approximation photo mission measurement work function radiation shield photo electrons coming classical mechanics momentum space physical quantities balls condensed matter physics photo machine discharge lamp single atom low energy electronic couple slides valence band spectroscopy higher harmonic generation plane momentum photo lecture mechanics actual process famous year nanometer probing mission process electron volts quantum mechanics class caption complete free space featureless background sample manipulator crystal wright fermi–dirac statistics thermodynamics higher energy kinetic energy highest energy vacuum chamber electronic band structures electron analyzer play momentum velocity quantum chemistry correct answer quantum materials electron momentum electromagnetism fermi level urban studies and planning electron leaving educational psychology energy range si derived units low temperature mass quantum mechanics nobel prize material science From James Overhiser on August 7th, 2019 16 plays
50:29 Nuts and Bolts of Oxide MBE #3—Epitaxy,… Nuts and Bolts of Oxide MBE #3—Epitaxy, Substrates, and Crystal Growth (Schlom)	Nuts and Bolts of Oxide MBE #3—Epitaxy, Substrates, and Crystal Growth (Schlom) 2019 Cornell Summer School strain engineering oxide super lattice anions symmetry mineralogy interesting retiled semiconductors central symmetric step edge real data metals nano composite chemical elements thin film fairy magnetic industrial processes radium oxide crystals gallium arsenide b.c.growth spiral mere plane caption complete super saturation metallurgy heat transfer crystallography screw dislocation temperature 1st rule science experiments square centimeter lattice constant oxide layer growth front strange engineering quantum mechanics 1st principles calculations room temperature reducing agents big difference read oscillations cubic polymorph semiconductor materials arsenides island nucleation physical chemistry materials science fair electric access hidden ground spiral growth cat ion lead technique professor gibbs oxides strontium tightening t.c.m.stable polymorph a.f.m.single crystal threading dislocation good start alkaline earth metals growth mode m.b.scientific method condensed matter physics strontium tightknit pressure opposite sign charge carriers feel stabilization negative pressure crystal growth phases of matter printing unit cell super lattice experimental data step flow m.b. machine t.c.m. oxide From James Overhiser on August 7th, 2019 6 plays
53:52 Nuts and Bolts of Oxide MBE #2—Composition… Nuts and Bolts of Oxide MBE #2—Composition Control and Calibration (Schlom)	Nuts and Bolts of Oxide MBE #2—Composition Control and Calibration (Schlom) 2019 Cornell Summer School high temperature concepts in physics chemical elements single phase gallium model air compound semiconductors ozone pressure lattice constant small substrate metallurgy thermodynamics reducing agents m.b.e.pyrotechnic fuels materials science oxides coolants titanium ratio lead oxide point defect titanium oxide year opium oxygen crazy material phases of matter and air conditioning opium oxide phase diagram single phase region industrial processes transmission pattern titanium ridge crystallography composition control lead tightening cubic zirconia biggest challenge internet temperature uniformity 1st oxide 1st taste transition metals vapor pressure arsenic pressure neutral formula unit heating opium metal growth window semiconductors nucleate solid anions gallium arsenide charge neutral formula semiconductor growth gases rough map single phase diagrams phase transitions r.b.s.volatile species read oscillations gallium separate chemical engineering euphoriants volatile constituent diffraction spot physical quantities half order medicinal plants face peer free energy lower temperature opium shutter metal organic typical arsenic source absolute flux perfectly stoichiometric metals crystals big substrate absorption control works smallest charge times point post-transition metals making single phase single crystal strontium type oxidizing agents phase region calibration method ventilating bismuth tightknit caption complete oscillations stay nice growth rate titanium species beat frequency dot dot dot phase gallium arsenide control regime oxygen pressure blah blah alkaline earth metals m.b.hand step volatile oxide volatile metal organic bismuth oxide environmental chemistry absorption control relative ratio From James Overhiser on August 7th, 2019 21 plays
47:29 Molecular Beam Epitaxy of High Mobility ZnO-based… Molecular Beam Epitaxy of High Mobility ZnO-based Heterostructures (Falson)	Molecular Beam Epitaxy of High Mobility ZnO-based Heterostructures (Falson) 2019 Cornell Summer School generally speaking growth parameters concepts in physics chemical elements magnesium zinc oxide percent magnesium geometric shapes heat transfer needle temperature coke side density inorganic compounds thermodynamics hall effect reducing agents scattering time pyrotechnic fuels materials science oxide substrate form defects magnetic field oxides polarization field max planck fairly high quantum transport pretty simple ball crystal rotated sample band gap ultraviolet radiation real space depletion region measurement electric and magnetic fields in matter beautiful big crystallography ray diffraction gallium arsenide micro meter extra wiggles shift gears chemical properties electric field spintronics nice flat environmental science doping magnesium electron gas high density magnesium content cool interaction problems whatsoever residual charge local tetrahedron fractional quantum phase transition nice linear light sources magnetism degrees celsius silicon oxide photo luminescence mineralogy semiconductors electron mobility charge density quantum mechanics silicon particles dimensional extra system temperature high mobility electrostatics antacids dimensional electron system effective mass superhard materials impurity content common oxide glass components refractory materials quantum phases physical quantities condensed matter physics header interface header structure dietary minerals cooking techniques substrate holder silicon carbide state functions crystal structure electronics terminology iii-v compounds metals large peak crystals mathematical terminology carbides caption complete single crystal plasma cell environmental chemistry semiconductor materials full range rock salt arsenides growth rate d.c.theatre photon energy single site roughly proportional flat surface moderate temperatures alkaline earth metals electromagnetism m.b.zinc oxide low temperature diffraction nitrides gallium nitride left hand side zinc oxide layer materials fairly simple From James Overhiser on August 7th, 2019 36 plays
08:48 Introduction to the Cornell NanoScale Facility Introduction to the Cornell NanoScale Facility	Introduction to the Cornell NanoScale Facility operations aesthetics facility communication recreate concepts in physics pseudo-top-level domains design voltage intricate education technology caption complete human behavior computer chips organisms living system cornell systems theory environment c.n.n.smallest scientists cornell nano scale manufacture life product development advantage students cornell university component properties architectural design processes science industry charge carriers experience chemistry From David Botsch on July 31st, 2019 63 plays
57:08 Cardiovascular Physiology: ACVECC Exam Webinar… Cardiovascular Physiology: ACVECC Exam Webinar July 29, 2019	Cardiovascular Physiology: ACVECC Exam Webinar July 29, 2019 great test type voltage action potential concepts in physics black dots negative resting membrane blood flow rooms waiting room smooth muscle interest cellular blood volume gradual increase reducing agents systolic volume infographics a.t.p. dependent process resting membrane potential greek letters big thing vascular town oxytocin receptor key things smooth muscle cell oxides pressure volume loop oxygen delivery biggest players volume loop jackson phase valve open multiple choice human proteins signal transduction proteins electrophysiology side effects c.g.cardiovascular system higher doses ras system low blood essay node muscular system electrochemistry a.v.increase blood volume medical terminology human communication beta facts type calcium channel endocrine system chemical properties basket chair sharp increase retain water cyclic g.m.p.mizen binding sites t.v.djf42 fan trickle transcription factors volumetric contraction physiology neuroendocrinology chain kinase bit higher volumetric relaxation volume measure contraction g.i.extracellular fluid calcium spark cell signaling diastolic volume communication e.c.g.cellular neuroscience g.i. tract pituitary gland big player essay note circular diagram myosin binding sites things remember traditional pharmacotherapy c.p.r.voltage gated channel diagrams vevo systemic faster neurophysiology blah blah blah didactics pulmonary circulation membrane biology increase blood board exam cardiac output side faster resistance physical quantities pressure volume exercise physiology normal setting 1st place plateau phase dietary minerals cardiovascular fitness a.d.h.heart chemical elements calcium channel tests metals aortic pressure g.m.p.ras electromagnetism heart rate cardiovascular physiology cytoskeleton neurotransmitters receptor activity beta receptors increase systemic good thing blood pressure test question potential a.t.p.side note caption complete positive charge glands power point washing content light chain skeletal muscle muscle contraction anatomy alpha receptor human head and neck super duper nitric oxide refractory period cardiac output asked alex channel blockers lower dose wiggers diagram From Daniel Fletcher on July 30th, 2019 361 plays
01:00:53 Chemical by Design (2 of 3) (McQueen-Lecture2) Chemical by Design (2 of 3) (McQueen-Lecture2)	Chemical by Design (2 of 3) (McQueen-Lecture2) 2019 JHU Summer School chemical potential state functions real space personal life concepts in physics small amount extended effects rare earth systematic errors concentration caption complete long time thought heat transfer temperature c.c.d.atomic physics high pressure thermodynamics potential semantics local structure pretty good composition physical chemistry materials science particle correlation algebra photography scientific classification basically condition knowledge reaction chemistry high level positive mental attitude positive psychology charge carriers free energy emotions gassy species thing physical quantities problem reaction pathway vision c.c.d. detector From James Overhiser on July 20th, 2019 0 plays
01:00:53 How Data Changes Materials and Synthesis by… How Data Changes Materials and Synthesis by Design ( McQueen)	How Data Changes Materials and Synthesis by Design ( McQueen) 2019 JHU Summer School chemical potential real space characteristics concepts in physics number internet slang small amount extended effects systematic errors concentration nationalism caption complete 1st week temperature c.c.d.charge carriers materials high pressure thermodynamics potential semantics conditions composition physical chemistry materials science material pressure scientific classification representative structure reaction property high level property law diffraction free energy thought thing political philosophy military equipment economic anthropology problem reaction pathway From James Overhiser on July 16th, 2019 6 plays
01:13:02 Chemical Design of Materials Discovery… Chemical Design of Materials Discovery (McQueen)(1 of 3)	Chemical Design of Materials Discovery (McQueen)(1 of 3) 2019 JHU Summer School population pretty good idea people concepts in physics prediction terribly interesting tools caption complete heat transfer temperature quantum electrodynamics interesting thing question systems theory charge printing systems spintronics ventilating scientific method pretty good science experiments cryptography superconductivity structure material human geography chemical tools chemistry electron huge number substitution manufacturing superconductor knowledge field theory interaction semantics characteristic futurology heating thought thing good reason room temperature and air conditioning demography light problem property From James Overhiser on July 15th, 2019 14 plays
59:21 Valence EELS, High Energy Resolution Valence EELS, High Energy Resolution	Valence EELS, High Energy Resolution 2017 PARADIM SUMMER SCHOOL Low loss EELS David Muller optical spectroscopy formal sciences concepts in physics silicon rich silicon dioxide chemical elements band gap scattering electron density lowest energy feature reducing agents valence electrons quick rule pyrotechnic fuels electron microscope waveguide mode nuclear physics percent radius electron real trouble dielectric boundary conditions nice big factorial and binomial topics tightly bound electric field spatial resolution single scattering optics sample thickness interface plasma nano particles optical gap direct bandgap phosphates particle physics fluid dynamics high energy electron atomic physics dielectric responses biology and pharmacology of chemical elements liquid cell multiple scattering electron beam energy resolution tiny signal single particle transition cherenkov radiation electron gas free electron gas optical transition energy loss energy lost characteristic angle free electronic energy filter low energy charge oscillations valence region surface plasma toxicology free path silicon oxide optical spectra bulk material exit haitian call auspex fourier analysis quantum mechanics big background image charge electrostatics lastic scattering nice thing interesting standing wave bessel function boundary conditions ion image single particle standing wave modes funny feature electron states scattering event direct gap good free electron physical quantities energy loss function vector calculus dietary minerals absorption and radiative transfer (optics)electrical engineering thick sample field lines length scale electronics terminology electrodynamics phoria transform radiation sensitive caption complete hof plasma frequency log scale experimental particle physics hof epsilon semiconductor materials higher energy high frequency atomic resolution interface mode good news harmonic oscillator special relativity dielectric function diverges logarithmically shine light couple 100 volt t.m.incredibly complicated bad news electromagnetism energy range cherenkov modes 100 volt spherical modes linear operators in calculus chemistry bulk plasma From James Overhiser on February 15th, 2019 14 plays
39:59 Introduction to Electron Microscopy Introduction to Electron Microscopy	Introduction to Electron Microscopy 2017 PARADIM Intro to TEM David Muller aperture size observational astronomy data sets big objects scattering individual atoms long time electron microscopy optical devices fraction pattern molecules electromagnetic potential electron microscope big fat spot atomic force microscope strong lens 1000000 volts concepts in physics photography magnetic field c.c.d. camera numerical aperture 1st thing diffraction limited zation damage diffraction pattern huge cross sections charge carriers spherical aberration microscopy big angles optics objective lens chip failed 1st electron bacteria optical microscope radiation damage atomic physics imaging mode uniformly illuminated electron lens electron beam aberration correct magnetism lens action energy loss s.c.m.magnetic lens scientific techniques microscopes optic axis statistics accelerator physics transmission electron microscope geometrical optics science of photography scanning electron microscope incredibly incredibly tiny knowledge representation projectile lenses diffraction spot physical quantities digital photography diffraction blur objective aperture viewing screen magnetostatics condenser lens caption complete free space c.c.d.scattering mechanism particle physics electron gun great amount small spot atomic resolution single transistor time varying field elastic scattering high voltage t.m.electromagnetism charged particles electron military equipment academic administration losses equation From James Overhiser on February 15th, 2019 12 plays
$Thumbnail for entry Diffraction (Part 2)$ 01:07:41 Diffraction (Part 2) Diffraction (Part 2)	Diffraction (Part 2) 2017 PARADIM Diffraction part 2 David Muller central beam noise source aperture size n.c.concepts in physics ideal d.q.2nd thing readout noise high dynamic range mental plane thermal noise long time channel gain variations quantum electrodynamics digital imaging count rate optical devices fraction pattern pico amps long range biological imaging range electric fields huge amount signal processing geology d.p.photography thin pixel magnetic field hole pez c.c.d. camera electronics poisson distribution diffraction pattern electron hope point spread function 200 kilovolts $16.00 pico amps neighboring pixel square root mass signal standard deviation detective quantum efficiency spatial frequency optics real space research methods energy distribution magnetic ripples d.q.single electron sensitivity particle physics narrow pixel space measurement slowly varying abled sphere atomic physics imaging mode electric field energy deposited minus sigma pretty good emerging technologies electron beam noise dynamic range point $16.00 pico magnetism dock noise soft moon k.v.pulse counting detector lastic imaging modes e.q.low energy pretty darn good electrons arrive micron pixel fire electron random noise microscopes perfectly linear discrete distributions electron produces mass image percent variation technical details electron hole pay q.e.statistics electrostatics electronics terminology quantum mechanics field image single actor ideal detector multiple pixels grain contrast systems theory electron hole 1st time high count rates charge carriers huge number diffraction spot physical quantities digital photography full diffraction pattern noise time pulse counting beam energy high voltages output noise milli 2nd dynamical systems output signal low count rate dimensional data digital signal processing momentum transfer caption complete $150.00 micron information pixel array detector c.c.d.1000 electrons laboratory equipment cybernetics atomic resolution scientific method finite size fundamental limit noise ratio fraction spot quantum chemistry t.m.data evaluation methods electromagnetism momentum operator incident electron diffraction probability current flow rough rule beam current wave function diffraction work From James Overhiser on February 15th, 2019 9 plays
52:13 5.1 Band Structure & Optical Spectra -… 5.1 Band Structure & Optical Spectra - Lecture 5.1	5.1 Band Structure & Optical Spectra - Lecture 5.1 2016 PARADIM SUMMER SCHOOL Feliciano Giustino - Lecture 5.1 country subdivisions 1st green zone point calculation energy philosophical terminology concepts in physics family level bunch structure measurement mathematical terminology quantum mechanics caption complete surfaces complex analysis quantum chemistry family surface energy conservation computational chemistry quasiparticles continuum mechanics systems theory quantum oscillations d.f.t.kinetic energy topology negative charge semiconductors total energy people discuss entire thing electronics terminology f.t.time consuming elementary shapes differential topology basically elementary geometry iraq war geometric shapes conduction band energy policy federal level physical quantities geography terminology condensed matter physics firmly set light photon energy experimental absorption atomic structure thing plasma physics elementary mathematics optical absorption From James Overhiser on February 15th, 2019 30 plays
01:09:52 Schrodinger equation and mean-field approximation… Schrodinger equation and mean-field approximation - Lecture 1.2	Schrodinger equation and mean-field approximation - Lecture 1.2 2016 PARADIM SUMMER SCHOOL Feliciano Giustino - Lecture 1.2 concepts in physics chemical elements simple equation solutions characteristic energy body wave function electronic structure correlation potential electron density architectural elements square divided 1st principles electron egyptian artefact types grammar particle equation electron charge force kinetic energy potential energy philosophical terminology principles nuclear mass hydrogen physics 1st electron particle physics quantum chemistry chemical properties body problem starting point cool interaction biology and pharmacology of chemical elements spintronics f.t.environmental science people talk atoms independent particle functions and mappings potential exacted chemical processes exclusion principle helium atom conservation laws mechanics extra potential electronic structure methods electron basically communication forms of energy reference frame tomorrow morning experimental parameter electrostatics complex number quantum mechanics hydrogen wave functions completely ignore single particle minus $13.00 quantum models airship technology 100 years potential energy coming physical quantities basically minus condensed matter physics potential energy hydrogen atom independent events nuclear potential pretty table column interaction state functions 40000 points takes care mathematical terminology square model helium physical principle caption complete single particle equation hydrogen semiconductor materials kinetic energy exchange potential total energy independent electron good news partial differential equations electron mass 1st step human communication electromagnetism electronic variables atomic number mass wave function From James Overhiser on February 15th, 2019 40 plays