SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3113303057> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W3113303057 endingPage "1146" @default.
W3113303057 startingPage "1146" @default.
W3113303057 abstract "Time-resolved in-house macromolecular crystallography is primarily limited by the capabilities of the in-house X-ray sources. These sources can only provide a time-averaged structure of the macromolecules. A significant effort has been made in the development of in-house laser-driven ultrafast X-ray sources, with one of the goals as realizing the visualization of the structural dynamics of macromolecules at a very short timescale within the laboratory-scale infrastructure. Most of such in-house ultrafast X-ray sources are operated at high repetition rates and usually deliver very low flux. Therefore, the necessity of a detector that can operate at the repetition rate of the laser and perform extremely well under low flux conditions is essential. Here, we present experimental results demonstrating the usability of the hybrid-pixel detectors, such as Eiger X 1M, and provide experimental proof that they can be successfully operated to collect macromolecular crystallographic data up to a detector frame rate of 3 kHz from synchrotron sources. Our results also show that the data reduction and structural analysis are successful at such high frame rates and fluxes as low as 108 photons/s, which is comparable to the values expected from a typical laser-driven X-ray source." @default.
W3113303057 created "2020-12-21" @default.
W3113303057 creator A5028025452 @default.
W3113303057 creator A5046077446 @default.
W3113303057 creator A5047868866 @default.
W3113303057 creator A5048105013 @default.
W3113303057 creator A5058636982 @default.
W3113303057 creator A5059232496 @default.
W3113303057 creator A5060080928 @default.
W3113303057 creator A5063551258 @default.
W3113303057 creator A5063600989 @default.
W3113303057 creator A5088902146 @default.
W3113303057 date "2020-12-16" @default.
W3113303057 modified "2023-10-17" @default.
W3113303057 title "Kilohertz Macromolecular Crystallography Using an EIGER Detector at Low X-ray Fluxes" @default.
W3113303057 cites W1625860372 @default.
W3113303057 cites W1999861833 @default.
W3113303057 cites W2000758078 @default.
W3113303057 cites W2001163199 @default.
W3113303057 cites W2001265759 @default.
W3113303057 cites W2001641653 @default.
W3113303057 cites W2003743857 @default.
W3113303057 cites W2006657071 @default.
W3113303057 cites W2021324649 @default.
W3113303057 cites W2023336384 @default.
W3113303057 cites W2027126729 @default.
W3113303057 cites W2030624413 @default.
W3113303057 cites W2067301836 @default.
W3113303057 cites W2097424768 @default.
W3113303057 cites W2097493124 @default.
W3113303057 cites W2105221293 @default.
W3113303057 cites W2110408203 @default.
W3113303057 cites W2110808180 @default.
W3113303057 cites W2117338104 @default.
W3113303057 cites W2123363094 @default.
W3113303057 cites W2144247432 @default.
W3113303057 cites W2144625174 @default.
W3113303057 cites W2147949826 @default.
W3113303057 cites W2148161555 @default.
W3113303057 cites W2159211495 @default.
W3113303057 cites W2167111693 @default.
W3113303057 cites W2168290086 @default.
W3113303057 cites W2226778269 @default.
W3113303057 cites W2509053704 @default.
W3113303057 cites W2552197008 @default.
W3113303057 cites W2586883659 @default.
W3113303057 cites W2617745064 @default.
W3113303057 cites W2621393184 @default.
W3113303057 cites W2754993961 @default.
W3113303057 cites W2806425767 @default.
W3113303057 cites W2886746945 @default.
W3113303057 cites W2888685301 @default.
W3113303057 cites W2891733579 @default.
W3113303057 cites W2892448840 @default.
W3113303057 cites W2894469531 @default.
W3113303057 cites W2908318836 @default.
W3113303057 cites W2912363089 @default.
W3113303057 cites W2937355640 @default.
W3113303057 cites W4248872320 @default.
W3113303057 doi "https://doi.org/10.3390/cryst10121146" @default.
W3113303057 hasPublicationYear "2020" @default.
W3113303057 type Work @default.
W3113303057 sameAs 3113303057 @default.
W3113303057 citedByCount "2" @default.
W3113303057 countsByYear W31133030572021 @default.
W3113303057 countsByYear W31133030572022 @default.
W3113303057 crossrefType "journal-article" @default.
W3113303057 hasAuthorship W3113303057A5028025452 @default.
W3113303057 hasAuthorship W3113303057A5046077446 @default.
W3113303057 hasAuthorship W3113303057A5047868866 @default.
W3113303057 hasAuthorship W3113303057A5048105013 @default.
W3113303057 hasAuthorship W3113303057A5058636982 @default.
W3113303057 hasAuthorship W3113303057A5059232496 @default.
W3113303057 hasAuthorship W3113303057A5060080928 @default.
W3113303057 hasAuthorship W3113303057A5063551258 @default.
W3113303057 hasAuthorship W3113303057A5063600989 @default.
W3113303057 hasAuthorship W3113303057A5088902146 @default.
W3113303057 hasBestOaLocation W31133030571 @default.
W3113303057 hasConcept C120665830 @default.
W3113303057 hasConcept C121332964 @default.
W3113303057 hasConcept C124101348 @default.
W3113303057 hasConcept C153914771 @default.
W3113303057 hasConcept C159317903 @default.
W3113303057 hasConcept C178596936 @default.
W3113303057 hasConcept C185592680 @default.
W3113303057 hasConcept C192562407 @default.
W3113303057 hasConcept C204389451 @default.
W3113303057 hasConcept C207114421 @default.
W3113303057 hasConcept C21368211 @default.
W3113303057 hasConcept C41008148 @default.
W3113303057 hasConcept C520434653 @default.
W3113303057 hasConcept C55493867 @default.
W3113303057 hasConcept C94915269 @default.
W3113303057 hasConceptScore W3113303057C120665830 @default.
W3113303057 hasConceptScore W3113303057C121332964 @default.
W3113303057 hasConceptScore W3113303057C124101348 @default.
W3113303057 hasConceptScore W3113303057C153914771 @default.
W3113303057 hasConceptScore W3113303057C159317903 @default.