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SUMMARY:FCC Allegro/TileCal-like calorimeter
DTSTART;VALUE=DATE-TIME:20260113T155000Z
DTEND;VALUE=DATE-TIME:20260113T161000Z
DTSTAMP;VALUE=DATE-TIME:20260419T090602Z
UID:indico-contribution-5217-29595@indico.ific.uv.es
DESCRIPTION:Speakers: Ana Arranz Asensi ()\nThe ALLEGRO detector concept f
 or the Future Circular Collider (FCC) foresees a robust and highly perform
 ant hadronic calorimeter inspired by the ATLAS Tile Calorimeter design. Wi
 thin the DRD Calo Work Package 3\, we present the ALLEGRO/TileCal proposal
 . The proposed design profits from the operational experience of TileCal a
 t the LHC\, while incorporating advances in photodetectors\, electronics\,
  and signal reconstruction to meet the demands of future high-rate\, high-
 precision collider experiments.\nEmphasis is placed on the calorimeter exp
 ected performance and the studies being carried-out at IFIC.\n\nhttps://in
 dico.ific.uv.es/event/8313/contributions/29595/
LOCATION:Universe 1001-Primera-135 - Nave Exp. Sala de Audiovisuales
URL:https://indico.ific.uv.es/event/8313/contributions/29595/
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SUMMARY:Prototyping and testing of a partly instrumented highly compact an
 d granular electromagnetic calorimeter in an electron beam of 1 to 6 GeV
DTSTART;VALUE=DATE-TIME:20260113T152500Z
DTEND;VALUE=DATE-TIME:20260113T154500Z
DTSTAMP;VALUE=DATE-TIME:20260419T090602Z
UID:indico-contribution-5217-29594@indico.ific.uv.es
DESCRIPTION:Speakers: Melissa Almanza Soto (IFIC)\nHighly compact\, granul
 ar electromagnetic calorimeters are necessary for luminometers in experime
 nts at electron-positron colliders\, as well as for measuring positron mul
 tiplicity and energy distribution in the laser-electron scattering experim
 ent LUXE\, which investigates strong-field QED. In the former\, Bhabha sca
 ttering is used as a gauge process. Using a highly compact calorimeter\, i
 .e.\, with a small Moli`{e}re radius\, the fiducial volume is well defined
 \, and the required space is relatively small. In addition\, the measureme
 nt of the shower of a high-energy electron on top of a widely spread low-e
 nergy background is improved. \nIn the laser-electron scattering case\, th
 e number of secondary electrons and positrons per bunch crossing varies ov
 er a wide range\, and both the determination of the number of electrons an
 d positrons and their energy spectrum per bunch crossing favour a highly c
 ompact calorimeter.\n\nThe concept of a sandwich calorimeter made of tungs
 ten absorber plates interspersed with thin sensor planes is developed. The
  sensor planes comprise a silicon pad sensor with a total area of about\, 
 structured into pads\, flexible Kapton printed-circuit planes for bias-vol
 tage supply and signal transport to the sensor edge\, all embedded in a ca
 rbon fibre support.\nEach sensor plane is read out by front-end (FE) ASICs
  called FLAME (Fcal Asic for Multiplane REadout)\, positioned at the edges
  of the sensor. FLAME comprises an analogue FE and a 10-bit ADC in each ch
 annel\, followed by a fast data serialiser.\nIn standard readout mode\, fa
 st deconvolution is performed in the FPGA using a procedure that.\nAn alum
 inium mechanical holds very precisely manufactured tungsten plates of abou
 t 555x 100 x 35 mm^3. The current stack was instrumented with 11 plates an
 d 11 sensor planes\, each consisting of two adjacent sensors. Preliminary 
 results on the performance will be reported.\n\nhttps://indico.ific.uv.es/
 event/8313/contributions/29594/
LOCATION:Universe 1001-Primera-135 - Nave Exp. Sala de Audiovisuales
URL:https://indico.ific.uv.es/event/8313/contributions/29594/
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SUMMARY:Adapting High Granular and compact silicon calorimeters concepts f
 rom Higgs Factories to Dark Matter experiments
DTSTART;VALUE=DATE-TIME:20260113T150000Z
DTEND;VALUE=DATE-TIME:20260113T152000Z
DTSTAMP;VALUE=DATE-TIME:20260419T090602Z
UID:indico-contribution-5217-29593@indico.ific.uv.es
DESCRIPTION:Speakers: Shan Huang (IFIC Exp. - AITANA)\nIn this talk\, we a
 im to summarize recent simulation studies on the exploitation of silicon-t
 ungsten high-granular calorimeter concepts in small scale Strong-FieldQED\
 , Dark Matter or direct searches for new particles in novel experiments. T
 hese concepts have been tailored for collider physics\, specifically Higgs
  Factories and the LHC. However\, the intrinsic capabilities of these desi
 gns\, which aim for a low Molière radius and high granularity\, potentiat
 e the applicability of these concepts to other experiments\, such as the L
 UXE New Physics with Optical Dump (NPOD) proposal\n\nhttps://indico.ific.u
 v.es/event/8313/contributions/29593/
LOCATION:Universe 1001-Primera-135 - Nave Exp. Sala de Audiovisuales
URL:https://indico.ific.uv.es/event/8313/contributions/29593/
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