Contact us for all of your high and ultra-high vacuum electrical feedthrough needs! https://vacuumvolume.com/electrical-feedthroughs/ #Allectra #VacuumVolume #SubD #SubminiatureD #SubDfeedthrough #vacuumfeedthrough #vacuumtechnology #vacuumscience #vacuumtech #cryogenics #nuclearfusion #synchrotron #particleaccelerator #beamline #vacuumchamber #ultrahighvacuum #highvacuum #SubDconnector #vacuumconnector #fusion #physics #surfacescience #spacetechnology #spacetech #aerospace #astrophysics #sciart #scienceart #SMAfeedthrough #coaxial 
Researchers at Brookhaven National Laboratory and Yale University have demonstrated the ability to control spin dynamics in magnetic materials by altering their thickness. The study could lead to smaller, more energy-efficient electronic devices. The achievement was made possible by the advanced capabilities of the Soft Inelastic X-ray Scattering (SIX) beamline at the National Synchrotron Light Source II (NSLS-II). Read more: https://www.bnl.gov/newsroom/news.php?a=117572 As you can see from the second image, this beamline uses an extraordinary amount of vacuum equipment! The soft X-ray energy requires high vacuum conditions to limit absorption of the X-rays. Also, to keep the sample clean, and to cool down to temperatures of ∼20 K requires ultra-high vacuum conditions. Vacuum Volume has all the UHV products you need to keep your beamline up and running or build a new one! https://vacuumvolume.com/ #VacuumVolume #Brookhaven #BrookhavenLab #BNL #Yale #SpinDynamics #spintronics #electronics #electronicdevice #energyefficient #NSLSII #NSLS2 #XrayScattering #RIXS #synchrotron #beamline #vacuumtech #vacuumtechnology #vacuumscience #ultrahighvacuum #softxrays #synchrotronscience 
Researchers at Brookhaven National Laboratory and Yale University have demonstrated the ability to control spin dynamics in magnetic materials by altering their thickness. The study could lead to smaller, more energy-efficient electronic devices. The achievement was made possible by the advanced capabilities of the Soft Inelastic X-ray Scattering (SIX) beamline at the National Synchrotron Light Source II (NSLS-II). Read more: https://www.bnl.gov/newsroom/news.php?a=117572 As you can see from the second image, this beamline uses an extraordinary amount of vacuum equipment! The soft X-ray energy requires high vacuum conditions to limit absorption of the X-rays. Also, to keep the sample clean, and to cool down to temperatures of ∼20 K requires ultra-high vacuum conditions. Vacuum Volume has all the UHV products you need to keep your beamline up and running or build a new one! https://vacuumvolume.com/ #VacuumVolume #Brookhaven #BrookhavenLab #BNL #Yale #SpinDynamics #spintronics #electronics #electronicdevice #energyefficient #NSLSII #NSLS2 #XrayScattering #RIXS #synchrotron #beamline #vacuumtech #vacuumtechnology #vacuumscience #ultrahighvacuum #softxrays #synchrotronscience 
Shown here is a custom ultra-high vacuum electrical feedthrough plate assembly we recently sold to a university research team for use in a space research instrument (more info to come once okay to release to the public). Vacuum Volume received the initial drawing and specifications from the customer, and then worked with Allectra's engineers to create a 3D model for approval before manufacturing. With Allectra's advanced machining and welding techniques, the final assembly ended up meeting all of the research team's requirements, and is now being used in a critical instrument. The assembly features 37 pin and 25 pin Sub-D connectors, and several 18 GHz SMA coaxial feedthroughs. Contact us for your custom plate assembly and off-the-shelf feedthrough needs! https://vacuumvolume.com/allectra/ #Allectra #VacuumVolume #SubD #SubminiatureD #SubDfeedthrough #vacuumfeedthrough #vacuumtechnology #vacuumscience #vacuumtech #cryogenics #nuclearfusion #synchrotron #particleaccelerator #beamline #vacuumchamber #ultrahighvacuum #highvacuum #SubDconnector #vacuumconnector #fusion #physics #surfacescience #spacetechnology #spacetech #aerospace #astronomy #sciart #scienceart 
Researchers from Berkeley Lab and Columbia Engineering report today that they have developed the first nanomaterial that demonstrates "photon avalanching," a process that is unrivaled in its combination of extreme nonlinear optical behavior and efficiency. The researchers say that the avalanching nanoparticles will advance high-resolution, real-time bio-imaging of a cell’s organelles and proteins, as well as the development of ultrasensitive optical sensors and neuromorphic computing that mimics the neural structure of the human brain, among other applications. It will be interesting where this new nanomaterial will take us! Read more: https://newscenter.lbl.gov/2021/01/13/nanoparticles-bioimaging-real-time/ #VacuumVolume #berkeley #BerkeleyLab #ColumbiaEngineering #nanomaterials #photonavalanching #avalanchingnanoparticles #microscopy #nanofabrication #nanoparticles #nanofab #MolecularFoundry #nanotech #nanotechnology #neuromorphic #quantum #bioimaging #nanophysics #quantumsensing #vacuumtech #vacuumtechnology #vacuumscience 
Researchers from Berkeley Lab and Columbia Engineering report today that they have developed the first nanomaterial that demonstrates "photon avalanching," a process that is unrivaled in its combination of extreme nonlinear optical behavior and efficiency. The researchers say that the avalanching nanoparticles will advance high-resolution, real-time bio-imaging of a cell’s organelles and proteins, as well as the development of ultrasensitive optical sensors and neuromorphic computing that mimics the neural structure of the human brain, among other applications. It will be interesting where this new nanomaterial will take us! Read more: https://newscenter.lbl.gov/2021/01/13/nanoparticles-bioimaging-real-time/ #VacuumVolume #berkeley #BerkeleyLab #ColumbiaEngineering #nanomaterials #photonavalanching #avalanchingnanoparticles #microscopy #nanofabrication #nanoparticles #nanofab #MolecularFoundry #nanotech #nanotechnology #neuromorphic #quantum #bioimaging #nanophysics #quantumsensing #vacuumtech #vacuumtechnology #vacuumscience 
Researchers from Berkeley Lab and Columbia Engineering report today that they have developed the first nanomaterial that demonstrates "photon avalanching," a process that is unrivaled in its combination of extreme nonlinear optical behavior and efficiency. The researchers say that the avalanching nanoparticles will advance high-resolution, real-time bio-imaging of a cell’s organelles and proteins, as well as the development of ultrasensitive optical sensors and neuromorphic computing that mimics the neural structure of the human brain, among other applications. It will be interesting where this new nanomaterial will take us! Read more: https://newscenter.lbl.gov/2021/01/13/nanoparticles-bioimaging-real-time/ #VacuumVolume #berkeley #BerkeleyLab #ColumbiaEngineering #nanomaterials #photonavalanching #avalanchingnanoparticles #microscopy #nanofabrication #nanoparticles #nanofab #MolecularFoundry #nanotech #nanotechnology #neuromorphic #quantum #bioimaging #nanophysics #quantumsensing #vacuumtech #vacuumtechnology #vacuumscience 
One of our favorite vacuum applications is Molecular Beam Epitaxy (MBE) due to the complex ultra-high vacuum chambers that it employs. Once completed, they are works of art! MBE is an elegant material growth process in which a thin single crystal layer is deposited on a single crystal substrate using atomic or molecular beams generated in Knudsen cells contained in UHV chambers, which ensures high purity and allows in situ preparation of atomically clean substrates. Here are photos we took from a trip to ASU's MBE lab of their twin-chamber MBE system. One chamber is dedicated to the growth of II-VI compound semiconductors, and the other is for growth of III-V compound semiconductors. The system enables them to create various optoelectronic devices (solar cells, laser diodes, LED's, photodetectors, and photovaltic devices). At Vacuum Volume, we have all the UHV products you need for an MBE system as well as other material growth techniques. Browse through our products at https://vacuumvolume.com/products/, and send us a quote request! #VacuumVolume #MBEsystem #molecularbeamepitaxy #epitaxy #ultrahighvacuum #UHVchamber #vacuumtech #vacuumscience #vacuumtechnology #vacuumsystem #ASU #MBElab #materialsresearch #materialsscience #thinfilms #nanotech #semiconductors #optoelectronics 
One of our favorite vacuum applications is Molecular Beam Epitaxy (MBE) due to the complex ultra-high vacuum chambers that it employs. Once completed, they are works of art! MBE is an elegant material growth process in which a thin single crystal layer is deposited on a single crystal substrate using atomic or molecular beams generated in Knudsen cells contained in UHV chambers, which ensures high purity and allows in situ preparation of atomically clean substrates. Here are photos we took from a trip to ASU's MBE lab of their twin-chamber MBE system. One chamber is dedicated to the growth of II-VI compound semiconductors, and the other is for growth of III-V compound semiconductors. The system enables them to create various optoelectronic devices (solar cells, laser diodes, LED's, photodetectors, and photovaltic devices). At Vacuum Volume, we have all the UHV products you need for an MBE system as well as other material growth techniques. Browse through our products at https://vacuumvolume.com/products/, and send us a quote request! #VacuumVolume #MBEsystem #molecularbeamepitaxy #epitaxy #ultrahighvacuum #UHVchamber #vacuumtech #vacuumscience #vacuumtechnology #vacuumsystem #ASU #MBElab #materialsresearch #materialsscience #thinfilms #nanotech #semiconductors #optoelectronics 
One of our favorite vacuum applications is Molecular Beam Epitaxy (MBE) due to the complex ultra-high vacuum chambers that it employs. Once completed, they are works of art! MBE is an elegant material growth process in which a thin single crystal layer is deposited on a single crystal substrate using atomic or molecular beams generated in Knudsen cells contained in UHV chambers, which ensures high purity and allows in situ preparation of atomically clean substrates. Here are photos we took from a trip to ASU's MBE lab of their twin-chamber MBE system. One chamber is dedicated to the growth of II-VI compound semiconductors, and the other is for growth of III-V compound semiconductors. The system enables them to create various optoelectronic devices (solar cells, laser diodes, LED's, photodetectors, and photovaltic devices). At Vacuum Volume, we have all the UHV products you need for an MBE system as well as other material growth techniques. Browse through our products at https://vacuumvolume.com/products/, and send us a quote request! #VacuumVolume #MBEsystem #molecularbeamepitaxy #epitaxy #ultrahighvacuum #UHVchamber #vacuumtech #vacuumscience #vacuumtechnology #vacuumsystem #ASU #MBElab #materialsresearch #materialsscience #thinfilms #nanotech #semiconductors #optoelectronics 
One of our favorite vacuum applications is Molecular Beam Epitaxy (MBE) due to the complex ultra-high vacuum chambers that it employs. Once completed, they are works of art! MBE is an elegant material growth process in which a thin single crystal layer is deposited on a single crystal substrate using atomic or molecular beams generated in Knudsen cells contained in UHV chambers, which ensures high purity and allows in situ preparation of atomically clean substrates. Here are photos we took from a trip to ASU's MBE lab of their twin-chamber MBE system. One chamber is dedicated to the growth of II-VI compound semiconductors, and the other is for growth of III-V compound semiconductors. The system enables them to create various optoelectronic devices (solar cells, laser diodes, LED's, photodetectors, and photovaltic devices). At Vacuum Volume, we have all the UHV products you need for an MBE system as well as other material growth techniques. Browse through our products at https://vacuumvolume.com/products/, and send us a quote request! #VacuumVolume #MBEsystem #molecularbeamepitaxy #epitaxy #ultrahighvacuum #UHVchamber #vacuumtech #vacuumscience #vacuumtechnology #vacuumsystem #ASU #MBElab #materialsresearch #materialsscience #thinfilms #nanotech #semiconductors #optoelectronics 
Scientists at SLAC National Accelerator Laboratory and Stanford University have used the lab’s Linac Coherent Light Source (LCLS), a powerful X-ray free-electron laser, to watch and directly measure the formation of polarons for the first time. Polarons are fleeting distortions in a material’s atomic lattice that form around a moving electron in a few trillionths of a second, then quickly disappear. As ephemeral as they are, they affect a material’s behavior, and may even be the reason that solar cells made with lead hybrid perovskites achieve extraordinarily high efficiencies in the lab. Read more: https://www6.slac.stanford.edu/news/2021-01-04-first-glimpse-polarons-forming-promising-next-gen-energy-material.aspx #VacuumVolume #SLAC #slaclab #stanford #stanforduniversity #polaron #polarons #perovskites #perovskite #materialsscience #materialsresearch #linearaccelerator #xray #xraylaser #LCLS #LinacCoherentLightSource #DOE #laser #ultrahighvacuum #vacuumscience #lightsource #vacuumtech #particleaccelerator #atoms #atomic #solar #solarcells