{"id":11601761,"identifier":"DVN/XPJTK6","persistentUrl":"https://doi.org/10.7910/DVN/XPJTK6","protocol":"doi","authority":"10.7910","separator":"/","publisher":"Harvard Dataverse","publicationDate":"2025-06-09","storageIdentifier":"s3://10.7910/DVN/XPJTK6","datasetType":"dataset","datasetVersion":{"id":446675,"datasetId":11601761,"datasetPersistentId":"doi:10.7910/DVN/XPJTK6","storageIdentifier":"s3://10.7910/DVN/XPJTK6","versionNumber":1,"versionMinorNumber":0,"versionState":"RELEASED","latestVersionPublishingState":"RELEASED","lastUpdateTime":"2025-06-09T12:00:05Z","releaseTime":"2025-06-09T12:00:05Z","createTime":"2025-06-07T15:23:44Z","publicationDate":"2025-06-09","citationDate":"2025-06-09","license":{"name":"CC0 1.0","uri":"http://creativecommons.org/publicdomain/zero/1.0","iconUri":"https://licensebuttons.net/p/zero/1.0/88x31.png","rightsIdentifier":"CC0-1.0","rightsIdentifierScheme":"SPDX","schemeUri":"https://spdx.org/licenses/","languageCode":"en"},"fileAccessRequest":true,"metadataBlocks":{"citation":{"displayName":"Citation Metadata","name":"citation","fields":[{"typeName":"title","multiple":false,"typeClass":"primitive","value":"Performance predictions of the SPARC x-ray crystal spectrometers for ion temperature and toroidal rotation measurements"},{"typeName":"author","multiple":true,"typeClass":"compound","value":[{"authorName":{"typeName":"authorName","multiple":false,"typeClass":"primitive","value":"Perks, C.; Vezinet, D.; Rice, J.E.; Reinke, M.L."}}]},{"typeName":"datasetContact","multiple":true,"typeClass":"compound","value":[{"datasetContactEmail":{"typeName":"datasetContactEmail","multiple":false,"typeClass":"primitive","value":"cjperks@psfc.mit.edu"}}]},{"typeName":"dsDescription","multiple":true,"typeClass":"compound","value":[{"dsDescriptionValue":{"typeName":"dsDescriptionValue","multiple":false,"typeClass":"primitive","value":"SPARC will be outfitted with three systems of X-ray crystal spectrometer arrays. Two of these are designed using cylindrically bent crystals to achieve high spectral-resolution for ion temperature and toroidal velocity measurements via imaging He-like Kr and Ne-like Xe. The last acts as a spectral survey system to monitor Ne-like W and nearby Hi and He-like emission from Cr, Fe, Co, Ni, Cu. Line radiation intensities are calculated using the FLEXIBLE ATOMIC CODE for atomic data and COLRADPY for collisional-radiative modeling then convoluted with a Voigt line shape. Free-free, free-bound, and two-photon continuum radiation is also included. The TOFU code is used to perform volume-of-sight integration to produce synthetic detector images. Also presented is cross-validation performed using the XICSRT Monte Carlo ray-tracing code. Ion temperature and toroidal velocity profiles are reconstructed using TOFU via tomographic inversion."}}]},{"typeName":"subject","multiple":true,"typeClass":"controlledVocabulary","value":["Physics"]},{"typeName":"keyword","multiple":true,"typeClass":"compound","value":[{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"atomic data"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"collisional-radiative modeling"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"cylindrically bent crystals"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"flexible atomic code"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"ion temperature"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"SPARC"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"spectral survey system"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"synthetic detector images"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"ToFu code"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"tomographic inversion"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"toroidal rotation measurements"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"voigt line shape"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"x-ray crystal spectrometer arrays"}},{"keywordValue":{"typeName":"keywordValue","multiple":false,"typeClass":"primitive","value":"XICSRT Monte Carlo ray-tracing code"}}]},{"typeName":"notesText","multiple":false,"typeClass":"primitive","value":"<a href=\"http://library.psfc.mit.edu/catalog/reports/2020/24ja/24ja134/abstract.php\">PSFC REPORT PSFC/JA-24-134</a><br /><br />This work is supported by Commonwealth Fusion Systems RPP031.<br /><br />If this record does not contain the full text, then the manuscript has been embargoed by the publisher thus restricting open access for 12 to 24 months after publication."}]}},"files":[{"description":"","label":"24ja134_archival_manuscript.pdf","restricted":false,"version":1,"datasetVersionId":446675,"dataFile":{"id":11601762,"persistentId":"","filename":"24ja134_archival_manuscript.pdf","contentType":"application/pdf","friendlyType":"Adobe PDF","filesize":862966,"description":"","storageIdentifier":"s3://dvn-cloud:1974afda775-6a40b140f1b7","rootDataFileId":-1,"md5":"a15ba8b8bb10192bf09f620829ff785c","checksum":{"type":"MD5","value":"a15ba8b8bb10192bf09f620829ff785c"},"tabularData":false,"creationDate":"2025-06-07","publicationDate":"2025-06-09","fileAccessRequest":true}}],"citation":"Perks, C.; Vezinet, D.; Rice, J.E.; Reinke, M.L., 2025, \"Performance predictions of the SPARC x-ray crystal spectrometers for ion temperature and toroidal rotation measurements\", https://doi.org/10.7910/DVN/XPJTK6, Harvard Dataverse, V1"}}