002917066 001__ 2917066
002917066 003__ SzGeCERN
002917066 005__ 20241114235910.0
002917066 0247_ $$2DOI$$9Elsevier B.V.$$a10.1016/j.nima.2024.170007$$qpublication
002917066 0248_ $$aoai:cds.cern.ch:2917066$$pcerncds:FULLTEXT$$pcerncds:CERN:FULLTEXT$$pcerncds:CERN
002917066 035__ $$9HAL$$ahal-04777143
002917066 035__ $$9https://inspirehep.net/api/oai2d$$aoai:inspirehep.net:2846947$$d2024-11-13T13:27:35Z$$h2024-11-14T06:51:44Z$$mmarcxml
002917066 035__ $$9Inspire$$a2846947
002917066 041__ $$aeng
002917066 100__ $$aHügging, [email protected]$$uBonn U.
002917066 245__ $$9Elsevier B.V.$$aRecent results and perspectives of the Monopix Depleted Monolithic Active Pixel Sensors (DMAPS)
002917066 260__ $$c2024
002917066 300__ $$a3 p
002917066 520__ $$9Elsevier B.V.$$aThe integration of readout electronics and sensors into a single entity of silicon in monolithic pixel detectors lowers the material budget while simplifying the production procedure compared to the conventional hybrid pixel detector concept. The increasing availability of high-resistivity substrates and high-voltage capabilities in commercial CMOS processes facilitates the application of depleted monolithic active pixel sensors (DMAPS) in modern particle physics experiments. TJ-Monopix2 and LF-Monopix2 chips are the most recent large-scale prototype DMAPS in their respective development line originally designed for the ATLAS Inner Tracker outer layer environment. In this contribution, the latest laboratory characterizations and beam test results of both DMAPS are presented with a special emphasis on performance after irradiation to high fluences.
002917066 540__ $$3publication$$aCC BY 4.0$$uhttp://creativecommons.org/licenses/by/4.0/
002917066 542__ $$3publication$$dThe Authors$$g2024
002917066 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002917066 6531_ $$9Elsevier B.V.$$aPixel detector
002917066 6531_ $$9Elsevier B.V.$$aMonolithic pixel
002917066 6531_ $$9Elsevier B.V.$$aCMOS sensor
002917066 6531_ $$9Elsevier B.V.$$aDMAPS
002917066 690C_ $$aARTICLE
002917066 690C_ $$aCERN
002917066 700__ $$aBarbero, Marlon$$uMarseille, CPPM
002917066 700__ $$aBarrilon, Pierre$$uMarseille, CPPM
002917066 700__ $$aBespin, Christian$$uBonn U.
002917066 700__ $$aBreugnon, Patrick$$uMarseille, CPPM
002917066 700__ $$aCaicedo, Ivan$$uBonn U.
002917066 700__ $$aDegerli, Yavuz$$uIRFU, Saclay
002917066 700__ $$aDingfelder, Jochen$$uBonn U.
002917066 700__ $$aHemperek, Tomasz$$uBonn U.
002917066 700__ $$aHirono, Toko$$uBonn U.
002917066 700__ $$aKrüger, Hans$$uBonn U.
002917066 700__ $$aMoustakas, Konstantinos$$uBonn U.
002917066 700__ $$aPangaud, Patrick$$uMarseille, CPPM
002917066 700__ $$aPernegger, Heinz$$uCERN
002917066 700__ $$aRiedler, Petra$$uCERN
002917066 700__ $$aRymaszewski, Piotr$$uBonn U.
002917066 700__ $$aSchall, Lars$$uBonn U.
002917066 700__ $$aSchwemling, Philippe$$uIRFU, Saclay
002917066 700__ $$aSnoeys, Walter$$uCERN
002917066 700__ $$aWang, Tianyang$$uBonn U.
002917066 700__ $$aWermes, Norbert$$uBonn U.
002917066 700__ $$aZhang, Sinuo$$uBonn U.
002917066 773__ $$c170007$$mpublication$$pNucl. Instrum. Methods Phys. Res., A$$v1070$$wC24-05-26$$y2025
002917066 8564_ $$82680800$$s772751$$uhttps://cds.cern.ch/record/2917066/files/Publication.pdf$$yFulltext
002917066 960__ $$a13
002917066 962__ $$b2896953$$k170007$$nla biodola, isola d'elba20240526
002917066 980__ $$aARTICLE
002917066 980__ $$aConferencePaper