FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2126455087> ?p ?o ?g. }

• W2126455087 abstract "In this paper we report on the design and operation of a novel piezovalve for the production of short pulsed atomic or molecular beams. The high speed valve operates on the principle of a cantilever piezo. The only moving part, besides the cantilever piezo itself, is a very small O-ring that forms the vacuum seal. The valve can operate continuous (dc) and in pulsed mode with the same drive electronics. Pulsed operation has been tested at repetition frequencies up to 5 kHz. The static deflection of the cantilever, as mounted in the valve body, was measured as a function of driving field strength with a confocal microscope. The deflection and high speed dynamical response of the cantilever can be easily changed and optimized for a particular nozzle diameter or repetition rate by a simple adjustment of the free cantilever length. Pulsed molecular beams with a full width at half maximum pulse width as low as 7 micros have been measured at a position 10 cm downstream of the nozzle exit. This represents a gas pulse with a length of only 10 mm making it well matched to for instance experiments using laser beams. Such a short pulse with 6 bar backing pressure behind a 150 microm nozzle releases about 10(16) particles/pulse and the beam brightness was estimated to be 4x10(22) particles/(s str). The short pulses of the cantilever piezovalve result in a much reduced gas load in the vacuum system. We demonstrate operation of the pulsed valve with skimmer in a single vacuum chamber pumped by a 520 l/s turbomolecular pump maintaining a pressure of 5x10(-6) Torr, which is an excellent vacuum to have the strong and cold skimmed molecular beam interact with laser beams only 10 cm downstream of the nozzle to do velocity map slice imaging with a microchannel-plate imaging detector in a single chamber. The piezovalve produces cold and narrow (Delta v/v=2%-3%) velocity distributions of molecules seeded in helium or neon at modest backing pressures of only 6 bar. The low gas load of the cantilever valve makes it possible to design very compact single chamber molecular beam machines with high quality cold and intense supersonic beams. The high speed cantilever piezovalve may find broad applicability in experiments where short and strong gas pulses are needed with only modest pumping, the effective use of (expensive) samples, or the production of cold atomic and molecular beams." @default.
• W2126455087 created "2016-06-24" @default.
• W2126455087 creator A5001717329 @default.
• W2126455087 creator A5023041488 @default.
• W2126455087 creator A5032027376 @default.
• W2126455087 creator A5076825767 @default.
• W2126455087 creator A5084933982 @default.
• W2126455087 creator A5085410193 @default.
• W2126455087 creator A5086304661 @default.
• W2126455087 date "2009-11-01" @default.
• W2126455087 modified "2023-09-27" @default.
• W2126455087 title "A short pulse (7 μs FWHM) and high repetition rate (dc-5kHz) cantilever piezovalve for pulsed atomic and molecular beams" @default.
• W2126455087 cites W1978435034 @default.
• W2126455087 cites W1979489183 @default.
• W2126455087 cites W1982907938 @default.
• W2126455087 cites W1985363606 @default.
• W2126455087 cites W1986328193 @default.
• W2126455087 cites W1987724500 @default.
• W2126455087 cites W1993336597 @default.
• W2126455087 cites W1995684935 @default.
• W2126455087 cites W2000980971 @default.
• W2126455087 cites W2011992699 @default.
• W2126455087 cites W2038717333 @default.
• W2126455087 cites W2041299752 @default.
• W2126455087 cites W2043652165 @default.
• W2126455087 cites W2053915838 @default.
• W2126455087 cites W2062238648 @default.
• W2126455087 cites W2076169265 @default.
• W2126455087 cites W2086929653 @default.
• W2126455087 cites W2088707374 @default.
• W2126455087 cites W2103923439 @default.
• W2126455087 cites W2123702123 @default.
• W2126455087 cites W2126448316 @default.
• W2126455087 cites W2140095293 @default.
• W2126455087 cites W2159256376 @default.
• W2126455087 cites W2405606816 @default.
• W2126455087 cites W2488609671 @default.
• W2126455087 doi "https://doi.org/10.1063/1.3263912" @default.
• W2126455087 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19947724" @default.
• W2126455087 hasPublicationYear "2009" @default.
• W2126455087 type Work @default.
• W2126455087 sameAs 2126455087 @default.
• W2126455087 citedByCount "81" @default.
• W2126455087 countsByYear W21264550872012 @default.
• W2126455087 countsByYear W21264550872013 @default.
• W2126455087 countsByYear W21264550872014 @default.
• W2126455087 countsByYear W21264550872015 @default.
• W2126455087 countsByYear W21264550872016 @default.
• W2126455087 countsByYear W21264550872017 @default.
• W2126455087 countsByYear W21264550872018 @default.
• W2126455087 countsByYear W21264550872019 @default.
• W2126455087 countsByYear W21264550872020 @default.
• W2126455087 countsByYear W21264550872021 @default.
• W2126455087 countsByYear W21264550872022 @default.
• W2126455087 countsByYear W21264550872023 @default.
• W2126455087 crossrefType "journal-article" @default.
• W2126455087 hasAuthorship W2126455087A5001717329 @default.
• W2126455087 hasAuthorship W2126455087A5023041488 @default.
• W2126455087 hasAuthorship W2126455087A5032027376 @default.
• W2126455087 hasAuthorship W2126455087A5076825767 @default.
• W2126455087 hasAuthorship W2126455087A5084933982 @default.
• W2126455087 hasAuthorship W2126455087A5085410193 @default.
• W2126455087 hasAuthorship W2126455087A5086304661 @default.
• W2126455087 hasBestOaLocation W21264550871 @default.
• W2126455087 hasConcept C108649604 @default.
• W2126455087 hasConcept C119599485 @default.
• W2126455087 hasConcept C120665830 @default.
• W2126455087 hasConcept C121332964 @default.
• W2126455087 hasConcept C127413603 @default.
• W2126455087 hasConcept C141354745 @default.
• W2126455087 hasConcept C159985019 @default.
• W2126455087 hasConcept C165801399 @default.
• W2126455087 hasConcept C169150495 @default.
• W2126455087 hasConcept C192562407 @default.
• W2126455087 hasConcept C2780167933 @default.
• W2126455087 hasConcept C2781355719 @default.
• W2126455087 hasConcept C34445779 @default.
• W2126455087 hasConcept C49040817 @default.
• W2126455087 hasConcept C520434653 @default.
• W2126455087 hasConcept C56200935 @default.
• W2126455087 hasConcept C92746544 @default.
• W2126455087 hasConcept C94915269 @default.
• W2126455087 hasConcept C97355855 @default.
• W2126455087 hasConceptScore W2126455087C108649604 @default.
• W2126455087 hasConceptScore W2126455087C119599485 @default.
• W2126455087 hasConceptScore W2126455087C120665830 @default.
• W2126455087 hasConceptScore W2126455087C121332964 @default.
• W2126455087 hasConceptScore W2126455087C127413603 @default.
• W2126455087 hasConceptScore W2126455087C141354745 @default.
• W2126455087 hasConceptScore W2126455087C159985019 @default.
• W2126455087 hasConceptScore W2126455087C165801399 @default.
• W2126455087 hasConceptScore W2126455087C169150495 @default.
• W2126455087 hasConceptScore W2126455087C192562407 @default.
• W2126455087 hasConceptScore W2126455087C2780167933 @default.
• W2126455087 hasConceptScore W2126455087C2781355719 @default.
• W2126455087 hasConceptScore W2126455087C34445779 @default.
• W2126455087 hasConceptScore W2126455087C49040817 @default.
• W2126455087 hasConceptScore W2126455087C520434653 @default.
• W2126455087 hasConceptScore W2126455087C56200935 @default.
• W2126455087 hasConceptScore W2126455087C92746544 @default.

• next