All over the planet, people are in the streets. It may be for the best that 2019 flew by. It’s been a tumultuous year. Despite this somewhat unsettled backdrop, we wish you and yours a happy, safe and joyful holiday season. As we look forward, we cannot see clearly what 2020 brings, but we strive to ‘be the light’ and a force for all that is good in the world. Season’s Greetings!
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Do you need to collect light in both the deep UV and the Infrared? If a spectrometer is being used to deliver the most light possible or to collect a weak signal, higher collection efficiency, faster f number, and optimized optics are essential. The McPherson 207 and 207V are ideal for signal limited experiments in the VUV or the IR.
McPherson is pleased to announce the availability of a new deep UV spectroscopy workstation. It is a system package intended to facilitate teaching and experimentation in vacuum and ultraviolet physics. It is ideal for spectroscopy in the vacuum ultraviolet regime, potentially advancing quantum information science and engineering.
Working towards safe, clean energy for the future MIT Plasma Science & Fusion Center has begun a conceptual design for SPARC, a high-field, net fusion energy experiment. Meantime, MIT is collaborating with a private fusion start-up called Commonwealth Fusion Systems (CFS) to develop better magnets for containing the hot fusion plasma
-----------------------------------------Nice new publication! "Time-resolved XUV ARPES with tunable 24–33 eV laser pulses at 30 meV resolution, by Edbert J. Sie et al "tunable photon energy between 24–33 eV with an unprecedented energy resolution of 30 meV and time resolution of 200 fs " It is nice to see results obtained with help of our OP-XCT monochromator
