AIDA Plans for WP9 in Bergen In an HCAL for ILD we have ~10 6 channels  corrections due to temperature changes ( Δ T) need to be done automatically online.

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Presentation transcript:

AIDA Plans for WP9 in Bergen In an HCAL for ILD we have ~10 6 channels  corrections due to temperature changes ( Δ T) need to be done automatically online Collaborate with Prague on development and testing of a controller that automates corrections due to Δ T by adjusting the overvoltage Δ V We will hire a postdoc for three years starting May months EU, rest NFR We try to get master students in the fall In Bergen, we have a well-equipped lab We have a setup for testing SiPMs We have MPPCs, SiPMs tiles

AIDA Plans for WP9 in Bergen The gain of SiPMs depends on overvoltage Δ V and temperature T The gain of SiPMs depends on overvoltage Δ V and temperature T (both dependences are linear over a wide range) (both dependences are linear over a wide range) By changing Δ V as a function of T we can keep the gain constant By changing Δ V as a function of T we can keep the gain constant We have measured V and T dependence of gain in Bergen for MPPCs 3x3mm 2, 3600 pixels 1x1mm 2, 1600 pixels 1/G*dG/dT=-2.2%/1 o C 1x1mm 2, 1600 pixels

AIDA Plans for WP9 in Bergen Perform initial measurements to determine algorithm (Bergen) Perform initial measurements to determine algorithm (Bergen) SiPM gain versus overvoltage SiPM gain versus temperature SiPM gain versus temperature Parameterize dependences by simple algorithms for Δ V=f V (T) Build controller (Prague) Build controller (Prague)  buy power supply, temperature sensors  buy power supply, temperature sensors Test controller with various SiPMs (Bergen, Prague)  need new SiPMs Issues Where do we need to measure the temperature? How many sensors? How do we handle multiple corrections in one power supply? (power supply feeds several SiPMs which may have different Δ V dependence) V break and Δ V dependence)