002827241 001__ 2827241 002827241 003__ SzGeCERN 002827241 005__ 20220916231305.0 002827241 0247_ $$2DOI$$9SISSA$$a10.22323/1.398.0818 002827241 0248_ $$aoai:cds.cern.ch:2827241$$pcerncds:FULLTEXT$$pcerncds:CERN:FULLTEXT$$pcerncds:CERN 002827241 035__ $$9https://inspirehep.net/api/oai2d$$aoai:inspirehep.net:2013715$$d2022-09-14T12:25:27Z$$h2022-09-16T04:02:56Z$$mmarcxml 002827241 035__ $$9Inspire$$a2013715 002827241 041__ $$aeng 002827241 100__ $$aSharma, Abhishek$$uCERN 002827241 245__ $$9SISSA$$aLatest developments and characterisation results of the MALTA sensors in TowerJazz 180nm for High Luminosity LHC 002827241 260__ $$c2022 002827241 300__ $$a7 p 002827241 520__ $$9SISSA$$aThe MALTA sensors are Depleted Monolithic Active Pixel Sensors (DMAPS) made using 180nm TowerJazz CMOS technology. These have been iteratively designed towards achieving a high radiation tolerance for applications such as in the outer layers of the HL-LHC’s ATLAS Inner Tracker. To date several design enhancements have been implemented to attain a high time resolution (<2ns), granularity as well as achieving excellent charge collection efficiency uniformly across the pixel geometries. This technology promises to drastically cut the production cost of silicon sensors due to their monolithic design, bypassing the costly stage of bump bonding in hybrid sensors. This talk will provide a detailed overview of the comprehensive characterisation studies conducted on the MALTA and Mini-MALTA sensors as well as present newer functionalities being introduced in the latest iteration, the MALTA2. 002827241 540__ $$3publication$$aCC-BY-NC-ND-4.0$$bSISSA$$uhttps://creativecommons.org/licenses/by-nc-nd/4.0/ 002827241 542__ $$3publication$$dthe author(s)$$g2022 002827241 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques 002827241 690C_ $$aARTICLE 002827241 690C_ $$aCERN 002827241 693__ $$aCERN LHC$$eATLAS 002827241 700__ $$aAllport, Phil$$uBirmingham U. 002827241 700__ $$aAsensi, Ignacio$$uValencia U.$$uValencia U., IFIC 002827241 700__ $$aBerdalovic, Ivan$$uZagreb U. 002827241 700__ $$aBortoletto, Daniela$$uOxford U. 002827241 700__ $$aButtar, Craig$$uGlasgow U. 002827241 700__ $$aCardella, Roberto$$uGeneva U. 002827241 700__ $$aDachs, Florian$$uCERN 002827241 700__ $$aDao, Valerio$$uCERN 002827241 700__ $$aDobrijevic, Dominik$$uZagreb U. 002827241 700__ $$aDyndal, Mateusz$$uCERN 002827241 700__ $$aFlores, Leyre$$uGlasgow U. 002827241 700__ $$aFreeman, Patrick$$uBirmingham U. 002827241 700__ $$aGabrielli, Andrea$$uCERN 002827241 700__ $$aGonella, Laura$$uBirmingham U. 002827241 700__ $$aLeBlanc, Matt$$uCERN 002827241 700__ $$aOyulmaz, Kaan$$uAbant Izzet Baysal U. 002827241 700__ $$aPernegger, Heinz$$uCERN 002827241 700__ $$aPiro, Francesco$$uCERN 002827241 700__ $$aRiedler, Petra$$uCERN 002827241 700__ $$avan Rijnbach, Milou$$uOslo U. 002827241 700__ $$aSandaker, Heidi$$uOslo U. 002827241 700__ $$aSolans, Carlos$$uCERN 002827241 700__ $$aSnoeys, Walter$$uCERN 002827241 700__ $$aSuligoj, Tomislav$$uAbant Izzet Baysal U. 002827241 700__ $$aTorres, Jose$$uValencia U.$$uValencia U., IFIC 002827241 700__ $$aWorm, Steven$$uBirmingham U. 002827241 773__ $$c818$$pPoS$$vEPS-HEP2021$$wC21-07-26$$y2022 002827241 8564_ $$82389324$$s40343939$$uhttps://cds.cern.ch/record/2827241/files/document.pdf$$yFulltext 002827241 960__ $$a13 002827241 962__ $$b2774759$$k818$$nonline20210726 002827241 980__ $$aARTICLE 002827241 980__ $$aConferencePaper