CO2 cooling for FPCCD Vertex Detector Yasuhiro Sugimoto KEK 1.

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Presentation transcript:

CO2 cooling for FPCCD Vertex Detector Yasuhiro Sugimoto KEK 1

FPCCD vertex detector Fine Pixel CCD –Pixel size ~ 5  m –Fully depleted epitaxial layer –Multi-port readout –Read out between trains (No power pulsing) FPCCD vertex detector –Double-sided ladder –Sensors and front-end ASICs inside a cryostat –Power consumption > 50W inside the cryostat FPCCD prototype 2

Operation temperature Optimization for radiation tolerance –Charge transfer inefficiency (CTI) due to radiation damage is a function of temperature –A simple simulation of CTI based on Shockley- Read-Hall theory shows around -40 ℃ is optimal ~1x10 11 e/cm 2 3

Cooling options Cold nitrogen gas –Flow rate of ~1 L/s is necessary to extract 50W power with  T=40K –Thick cooling tube would be necessary Two-phase CO2 –Flow rate of ~0.15 g/s is necessary to extract 50W power with  T~0K (latent heat) –Thin tube is OK  Less material budget Less space between forward Si disks and beam pipe 4

Advantages of CO2 cooling Large latent heat ~300 J/g (x3 of PFC) High pressure ~1 ℃ –Less evaporated gas volume –Less temperature drop due to pressure drop Much less Global Warming Potential CO2C2F6C3F8 Latent J/g~100 J/g~110 J/g Critical point 31.1 ℃ 19.7 ℃ 71.9 ℃ MPa~0.5 MPa~0.1 MPa GWP

CO2 cooling for FPCCD VTX Cooling tube is attached to VTX end-plate and heat produced by CCD output amp and ASIC is removed by conduction through CFRP ladder (simulation study for thermal design is necessary) Return line of CO2 will be used to cool the electronics outside the cryostat (~200W/side) Inner support tube should be air- tight and filled with dry air/nitrogen in order to prevent condensation on the CO2 tube 6

CO2 blow system CO2 collaboration in Japan –ILC VTX, ILC TPC, Belle-II VTX, and KEK cryogenic group –We constructed “blow system” and temperature was successfully controlled between -40 ℃ and +15 ℃ 7

CO2 cooling test mockup Acril pipe filled with dry air, which mimics ILD inner support tube Purpose –Demonstrate that a bare cooling tube can be used in the dry air: No condensation, small heat penetration –Measure pressure drop (temperature drop) through a thin tube 8

CO2 cooling test mockup 9 Data logger Acril pipe Dry air generator Cooling system

Test results (1) Dew point of <-45 ℃ can be easily achieved within 5 hours with the dry air flow rate of 5 L/min No condensation was observed on the 2 mm tube with -40 ℃ 2-phase CO2 10

Test results (2) Heat penetration –Heat penetration was obtained from the difference of flow rates when “dry-out” occurs at different points –Dry out can be observed as a sudden rise of temperature –Flow rate difference of 0.03g/s caused dry-out point difference of 50cm  heat penetration ~ 20 W/m 11

Future plan (1) Cooling test of dummy ladder/end-plate 12

Future plan (2) Blow system  Circulating system –We will conduct R&D on a 2-phase CO2 cooling system which circulates CO2 using a compressor –One compressor may be used for different sub- detectors (different temperature) 13

Summary Two-phase CO2 cooling is a very attractive option for the cooling system of FPCCD vertex detector It has been demonstrated that 2mm cooling tube can be used in dry-air atmosphere without condensation and with reasonably small heat penetration of 20 ℃ We will conduct R&D on the circulating CO2 cooling system using a compressor 14