Search for tag: "silicon oxide"

02:28:41 CNF 35th Anniversary Afternoon Talks CNF 35th Anniversary Afternoon Talks	CNF 35th Anniversary Afternoon Talks Chris Ober (Cornell) Jordan Katine (HGST) Michal Lipson (Cornell) livestock free layer high temperature big nano solutions mike thompson directed self-assembly ferromagnetic layer parts of clothing transaction processing heat transfer magnesium oxide resistance area product 35th anniversary atmospheric thermodynamics functional groups organic systems physical chemistry materials science nano scale semiconductor industry building engineering 1.5 terabits buckle polymer photography magnetic field hard disk drive air bearing surface computer hardware chemically amplified resist critical current nanomaterials computer systems nanotechnology boron layer dozen years silicon wafer polymers concepts in physics electric field copper spacer test devices existing systems john rogers range order spin transfer torque ultraviolet radiation electrodes electro optical polymer system soil contamination crystallography external laser negative tone nanoparticle resist small dimensions equal volume laboratory equipment bottle polymer real challenge packaging materials computer storage nano particles graphically pattern pattern media computer storage media big chunk magnetism high resolution temperature solvent paper chemical processes magnetic device silicon photonics nanometer pitch jewels percent silicon science experiments degrees celsius 1010 years confine light shallow angle fair magnetic material applied field mineralogy move objects weather resolution image image processing tunnel junction extreme ultraviolet hard disk drives optical forces photonic device antacids nice thing big challenge magnetic recording writing data materials data management phase transitions organic chemistry 1st thing magnetic layer gilbert equation thermal isolation reference layer deep u.v. common issues bits smaller hot plate thermal time constant semiconductor device fabrication drag tester thermal stability meteorology magnetic material continuous media recording photonics solvents device physics high density dielectrics mechanical structure national labs sensitive material prototyping work hard bias critical dimensions photo active crystals transducers fashion accessories sensitive system pinned layer inorganic component assisted recording energy transfer magnetic device technology field transducer caption complete high speed lightning rod thermally assisted recording square inch computer graphics condensed matter physics excellent question mediasite quantum electronics oxides graduate student ferromagnetic materials clever trick nano composite u.v. wavelengths scale pattern bit pattern media room temperature photo resist tunnel barrier laser spike softening temperature molecular glass 3play_vodcnf_standard From Karlis Musa on February 19th, 2020 24 plays Content Categories Presentations Creation Date July 19th, 2012
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 128 plays
09:46 2017 REU Daniel Teal CNF HHMI KEP PARADIM REU… 2017 REU Daniel Teal CNF HHMI KEP PARADIM REU Nano-Convocation	2017 REU Daniel Teal CNF HHMI KEP PARADIM REU Nano-Convocation d.n.a. laser diffraction u.v. positive resist chemical composition tiny molecules concepts in physics silicon dioxide chemical elements pressure drop biological function mirror stack top-level domains electric potential cnf i.t.t. l.d. electricity d.v.r. optical devices reducing agents molecules photo resist signal processing taper channel smooth surface oxides opposite direction protein spot initial pressure distributed brag social concepts p.d.s. cognition microscopy digital electronics electric field electrical components pretty cool bacterial mechanics fluid flow electrons moving electric current beam scattering frequency design measurement electrode bacteria machines cell biology optical microscope substract print international technology roadmap for semiconductors lithography nodes reu current pretty good plasma clean normal electronic molecular machines double helix crystal quality anthropology tuning fork stamping method extrusion loading electrical current geometry electric material immune cells k.p.h. 300 nanometer polymer brushes electronic signal image processing $0.00 nanometers electrostatics fiction literature values megahertz wave molecular biology electronic device transistor d.v.r. stacks deep u.v. unique mechanical properties sound physical quantities motor proteins nanometer protein spots semiconductor device fabrication electronic circuits negative resist d.n.a. binding matter printing ultra smooth surface spectroscopy electrical engineering mechanics state functions mechanical system silicon wafer graphene single molecule incubation time crystals metaphysics caption complete carbon forms documents sandwich structure atomic layer deposition diffraction grating potential inside talks electric acoustic wave gold electrodes device mediasite electromagnetism photonics side wall diffraction walls pattern protein $25.00 k.p.h. mass media behaviorism biotechnology chemistry tantalum oxide polymer chains From James Overhiser on February 18th, 2019 5 plays
08:42 2017 REU Dante Avalos CNF HHMI KEP PARADIM REU… 2017 REU Dante Avalos CNF HHMI KEP PARADIM REU Nano-Convocation	2017 REU Dante Avalos CNF HHMI KEP PARADIM REU Nano-Convocation d.n.a. laser diffraction u.v. positive resist chemical composition tiny molecules concepts in physics silicon dioxide pressure drop biological function mirror stack electric potential i.t.t. l.d. electricity cherry d.v.r. optical devices molecules stain signal processing taper channel smooth surface oxides opposite direction protein spot initial pressure unique distributed brag social concepts p.d.s. cognition proteins microscopy elementary geometry digital electronics electric field pretty cool bacterial mechanics fluid flow electrons moving electric current beam scattering design single molecule happen bacteria machines mechanical properties genetics cell biology optical microscope substract print international technology roadmap for semiconductors lithography nodes reu cnf internet pretty good method plasmid plasma clean normal electronic molecular machines double helix crystal quality anthropology control tuning fork contamination stamping method extrusion loading change topology geometry electric material studies k.p.h. fantastic color 300 nanometer polymer brushes electronic signal image processing $0.00 nanometers electrostatics question fiction attach electrical current literature values megahertz wave molecular biology electronic device d.v.r. stacks deep u.v. unique mechanical properties physical quantities motor proteins nanometer protein spots semiconductor device fabrication electronic circuits negative resist d.n.a. binding matter printing ultra smooth surface spectroscopy electrical engineering groove mechanics mechanical system process silicon wafer binding surface characterize incubation time crystals protein metaphysics caption complete documents sandwich structure atomic layer deposition diffraction grating potential inside talks picture laundry acoustic wave optical spectrum gold electrodes mediasite electromagnetism photonics immune cells side wall diffraction walls pattern protein $25.00 k.p.h. photo resist behaviorism biotechnology chemistry tantalum oxide polymer chains From James Overhiser on February 18th, 2019 5 plays
09:13 2017 REU Monica Lopez Martinez CNF HHMI KEP… 2017 REU Monica Lopez Martinez CNF HHMI KEP PARADIM REU Nano-Convocation	2017 REU Monica Lopez Martinez CNF HHMI KEP PARADIM REU Nano-Convocation d.n.a. laser diffraction u.v. positive resist chemical composition tiny molecules concepts in physics silicon dioxide pressure drop biological function adjustment mirror stack electric potential cnf i.t.t. l.d. electricity d.v.r. optical devices molecules magnetic signal processing taper channel smooth surface oxides opposite direction protein spot initial pressure distributed brag social concepts p.d.s. cognition proteins microscopy digital electronics electric field pretty cool bacterial mechanics fluid flow electrons moving electric current beam scattering design single molecule tether bacteria machines cell biology optical microscope substract print international technology roadmap for semiconductors lithography nodes reu increase pretty good plasma clean electron beam normal electronic molecular machines double helix crystal quality anthropology tuning fork stamping method extrusion loading properties electrical current geometry electric material amount immune cells k.p.h. features 300 nanometer polymer brushes electronic signal image processing $0.00 nanometers electrostatics spots fiction literature values megahertz wave molecular biology electronic device surface d.v.r. stacks deep u.v. unique mechanical properties protocols physical quantities motor proteins nanometer protein spots semiconductor device fabrication electronic circuits negative resist d.n.a. binding matter printing ultra smooth surface spectroscopy electrical engineering mechanics mechanical system silicon wafer curves incubation time crystals metaphysics caption complete documents sandwich structure atomic layer deposition diffraction grating potential inside talks molecule acoustic wave gold electrodes mediasite electromagnetism photonics side wall diffraction walls pattern protein $25.00 k.p.h. photo resist behaviorism biotechnology chemistry tantalum oxide polymer chains From James Overhiser on February 18th, 2019 0 plays
09:58 2017 REU Michael Klaczko CNF HHMI KEP PARADIM… 2017 REU Michael Klaczko CNF HHMI KEP PARADIM REU Nano-Convocation	2017 REU Michael Klaczko CNF HHMI KEP PARADIM REU Nano-Convocation d.n.a. laser diffraction u.v. positive resist chemical composition tiny molecules concepts in physics silicon dioxide chemical elements pressure drop biological function scattering mirror stack electric potential i.t.t. l.d. electricity transparent d.v.r. optical devices molecules signal processing taper channel smooth surface oxides opposite direction protein spot initial pressure distributed brag side walls social concepts substrate p.d.s. cognition microscopy specific digital electronics electric field brush pretty cool bacterial mechanics fluid flow electrons moving electric current beam scattering design single molecule wavelength bacteria machines cell biology optical microscope dietary minerals image processing substract print international technology roadmap for semiconductors lithography nodes reu cnf pretty good plasma clean occupational safety and health normal electronic molecular machines double helix crystal quality anthropology tuning fork stamping method extrusion loading topology geometry electric material immune cells k.p.h. 300 nanometer polymer brushes transition metals electronic signal chromium $0.00 nanometers electrostatics question fiction electrical current literature values megahertz wave molecular biology electronic device d.v.r. stacks deep u.v. unique mechanical properties physical quantities motor proteins nanometer protein spots semiconductor device fabrication electronic circuits negative resist d.n.a. binding matter printing ultra smooth surface spectroscopy electrical engineering mechanics mechanical system process silicon wafer surface incubation time crystals metaphysics caption complete documents sandwich structure atomic layer deposition diffraction grating potential inside talks acoustic wave gold electrodes mediasite structure electromagnetism initiator photonics side wall space diffraction walls pattern protein $25.00 k.p.h. photo resist behaviorism biotechnology chemistry tantalum oxide polymer chains From James Overhiser on February 18th, 2019 0 plays
09:36 2017 REU Gabriel Guisado CNF HHMI KEP PARADIM REU… 2017 REU Gabriel Guisado CNF HHMI KEP PARADIM REU Nano-Convocation	2017 REU Gabriel Guisado CNF HHMI KEP PARADIM REU Nano-Convocation d.n.a. laser diffraction u.v. positive resist chemical composition tiny molecules concepts in physics resistance silicon dioxide experiments pressure drop industrial processes biological function mirror stack top-level domains electric potential cnf i.t.t. l.d. electricity d.v.r. optical devices molecules signal processing distance taper channel smooth surface oxides opposite direction protein spot initial pressure penetrate infectious diseases distributed brag condition social concepts p.d.s. cognition microscopy digital electronics electric field pretty cool bacterial mechanics fluid flow electrons moving electric current beam scattering design single molecule bacteria machines fluid dynamics cell biology optical microscope substract print international technology roadmap for semiconductors lithography nodes reu increase pretty good plasma clean normal electronic molecular machines double helix crystal quality anthropology tuning fork stamping method extrusion loading electrical current geometry electric material immune cells k.p.h. 300 nanometer polymer brushes electronic signal image processing $0.00 nanometers electrostatics question fiction exposure literature values megahertz wave molecular biology electronic device infection d.v.r. stacks deep u.v. unique mechanical properties physical quantities motor proteins nanometer protein spots semiconductor device fabrication electronic circuits negative resist d.n.a. binding matter printing ultra smooth surface spectroscopy electrical engineering side wall mechanics state functions mechanical system silicon wafer incubation time crystals metaphysics caption complete documents sandwich structure atomic layer deposition diffraction grating potential inside talks constriction photography channel acoustic wave gold electrodes device mediasite fluid mechanics electromagnetism photonics professor diffraction walls pattern protein $25.00 k.p.h. photo resist behaviorism biotechnology chemistry tantalum oxide polymer chains From James Overhiser on February 18th, 2019 3 plays
08:06 2017 REU Jonathan Chandonait CNF HHMI KEP… 2017 REU Jonathan Chandonait CNF HHMI KEP PARADIM REU Nano-Convocation	2017 REU Jonathan Chandonait CNF HHMI KEP PARADIM REU Nano-Convocation d.n.a. laser diffraction u.v. positive resist chemical composition tiny molecules concepts in physics silicon dioxide pressure drop biological function reu mirror stack electric potential i.t.t. l.d. electricity absorption d.v.r. optical devices molecules signal processing taper channel material smooth surface oxides opposite direction protein spot initial pressure distributed brag social concepts substrate p.d.s. cognition microscopy digital electronics electric field optics pretty cool bacterial mechanics fluid flow philosophical terminology electrons moving electric current beam scattering design single molecule wavelength photon reflections nanometer bacteria machines cell biology optical microscope substract print international technology roadmap for semiconductors lithography nodes thickness cnf pretty good plasma clean normal electronic molecular machines double helix crystal quality anthropology tuning fork stamping method extrusion loading electrical current chemical processes geometry electric material refraction immune cells k.p.h. 300 nanometer polymer brushes electronic signal image processing reflector $0.00 nanometers electrostatics opportunity fiction literature values megahertz wave molecular biology electronic device d.v.r. stacks deep u.v. unique mechanical properties project management physical quantities motor proteins nanometer protein spots semiconductor device fabrication electronic circuits negative resist d.n.a. binding matter printing ultra smooth surface spectroscopy electrical engineering problem mechanics mechanical system d.b. silicon wafer incubation time crystals metaphysics caption complete documents sandwich structure atomic layer deposition diffraction grating roughness potential inside talks acoustic wave gold electrodes mediasite compatibility electromagnetism photonics side wall diffraction walls purification pattern protein $25.00 k.p.h. photo resist behaviorism biotechnology chemistry tantalum oxide polymer chains From James Overhiser on February 18th, 2019 1 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 28 plays
01:02:41 2017 CNF HHMI KEP PARADIM REU Nano-Convocation -… 2017 CNF HHMI KEP PARADIM REU Nano-Convocation - Session 3_001	2017 CNF HHMI KEP PARADIM REU Nano-Convocation - Session 3_001 d.n.a. substract print u.v. positive resist chemical composition tiny molecules concepts in physics silicon dioxide pressure drop biological function mirror stack electric potential i.t.t. l.d. electricity d.v.r. optical devices molecules signal processing taper channel smooth surface oxides opposite direction protein spot initial pressure distributed brag social concepts p.d.s. cognition microscopy digital electronics electric field pretty cool bacterial mechanics fluid flow electrons moving electric current beam scattering design single molecule bacteria machines cell biology optical microscope laser diffraction international technology roadmap for semiconductors lithography nodes reu cnf pretty good plasma clean normal electronic molecular machines double helix crystal quality anthropology tuning fork stamping method extrusion loading electrical current geometry electric material immune cells k.p.h. 300 nanometer polymer brushes electronic signal image processing $0.00 nanometers electrostatics fiction literature values megahertz wave molecular biology electronic device d.v.r. stacks deep u.v. unique mechanical properties physical quantities motor proteins nanometer protein spots semiconductor device fabrication electronic circuits negative resist d.n.a. binding matter printing ultra smooth surface spectroscopy electrical engineering mechanics mechanical system silicon wafer incubation time crystals metaphysics caption complete documents sandwich structure atomic layer deposition diffraction grating potential inside talks acoustic wave gold electrodes mediasite electromagnetism photonics side wall diffraction walls pattern protein $25.00 k.p.h. photo resist behaviorism biotechnology chemistry tantalum oxide polymer chains From James Overhiser on February 15th, 2019 6 plays
29:26 CNF NanoCourses 2004 – Section 3.6: CMP… CNF NanoCourses 2004 – Section 3.6: CMP (Daniel Woodie)	CNF NanoCourses 2004 – Section 3.6: CMP (Daniel Woodie) semiconductor device fabrication natural resources solutions cosmetics chemicals surface roughness vacuum data analysis dispositional beliefs length dietary minerals structure process mineralogy ammonium compounds sociology index food ingredients i.b.m. particle technique coatings economic geology liquids polishing microstructure native element minerals polymers phases of matter materials computer hardware companies statistical terminology materials science force film thickness metrology cryptography political philosophy oxide occupational safety and health electric and magnetic fields in matter oxoanions hydroxides stochastic processes silicon oxide phase transitions sociocultural evolution economic geography functions and mappings integrated circuits commerce electrical conductors metalworking terminology colloidal chemistry fluid dynamics biology and pharmacology of chemical elements polyurethanes cardiology pyrotechnic fuels reducing agents sociological theories solvents futurology industrial processes mechanical engineering packaging materials polish condensed matter physics human geography production and manufacturing semiconductor companies walking philosophical terminology measuring instruments dram sedimentary rocks transition metals formal methods technology mathematical analysis grinding and lapping concepts in physics oxides marketing manufacturing atmospheric thermodynamics dielectrics 3play_vodcnf_standard From David Botsch on January 20th, 2012 76 plays
38:31 CNF NanoCourses 2004 – Section 3.8: Wet… CNF NanoCourses 2004 – Section 3.8: Wet Etching, Part 1 (P	CNF NanoCourses 2004 – Section 3.8: Wet Etching, Part 1 (P industry forms of water water in gas ammonium compounds metallurgy food ingredients materials temperature plasma processing vacuum chemical kinetics lighting chemical compounds and uncertainty dietary minerals hydroxides geography terminology communication atmosphere ventilating continuum mechanics hydrogen compounds l.p.c. industrial processes systems theory hydraulics winds crystallography corrosion chemical engineering chalcogens state functions chemical properties mineral acids quality control information science anions analytical chemistry atmospheric thermodynamics crystals ethology gases solvents refrigerants sulfur room temperature reducing agents hydrogen alchemical processes oxidizing agents ice alchemical substances knowledge laboratory techniques nitrides oxide silicon information building materials nonmetal halides heat transfer philosophical terminology wafer home appliances oxide film physical chemistry metalloids inorganic solvents pyrotechnic fuels chemistry separation processes plumbing bathrooms high temperature chemical elements physical sciences caption complete economic theories building engineering materials science solutions process micron hazardous air pollutants electricity substrate electronics terminology management fluorides oxidation oxygen compounds nonmetals marketing refractory materials heating photographic chemicals nuclear fusion fuels degree cryptography display technology imperial units equilibrium chemistry h.f. information theory carbon dioxide printing mass dry action security systems production and manufacturing mineralogy c.n.n. organometallic chemistry manufacturing c.b.d. semiconductor device fabrication and air conditioning fluid dynamics iron design for x fluid mechanics oxides thing pressure application chlorides bases legal doctrines and principles metals oxoanions greenhouse gases 3play_vodcnf_standard From David Botsch on January 10th, 2012 106 plays