RPC Development in Beijing and Potential for NO A Tianchi Zhao University of Washington May 16, 2005.

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Presentation transcript:

RPC Development in Beijing and Potential for NO A Tianchi Zhao University of Washington May 16, 2005

BULK Phenolic/melamine resin with regular compressed paper SURFACE Melaminic phenolic resin with fine paper Standard Bakelite High Pressure Laminate M. Abbrescia et al., “Test on the Performance of Resistive Plate Chambers in View of Their Use at the LHC,” International Conference on High Energy Physics of the European Physical Society, Jerusalem, Israel, August, Produced in Italy Coordinated by INFN Laminated by hot steel plates

 Linseed oil : Haptane = 40 % : 60 %  Oil coating at T = 30 ~ 32 o  Drying the coated oil with air for 48 hours Oiling Procedure for CMS End-cap RPCs 200 l tank

Surface Thin melamine film Inventions Made at IHEP, Beijing Much better surface quality than surfaces formed by fine paper and resin pressed by steel plates. A very simple technical improvement with a dramatic effect on the RPC performance (A) Pre-fabricated melamine film hot pressed on surface

BULK Modified phenolic (B): A special process of modifying the phenolic polymer to obtain the desired bulk resistivity High resistivity: Low dark current, low noise -> low rate capability Low resistivity: High dark current, high nois -> high rate capability

H.V. Electrodes Special Graphite Paint for the melamine surface (C) Graphite Paiting A special graphite paint compatible to melamine film was developed together with Chinese industry. Graphite layers is spray painted

RPC Prototypes R&D started four years ago Prototypes mostly a single gap, 0.6 m 2 Various plate resistivity: to 4x10 12  cm Streamer mode intended for low rate Performance improves as they learn

Prototype Performance Electrode resistivity: ~  cm Ar/Freon134/Isobutane 32:60:8 (Belle gas) Discrimination threshold: 100 mV Best results are from a recent neutron radiation test Long plateau: ~ 2000 V High efficiency 96-98% for a single 2 mm gap

Cosmic Ray Counting Rate Noise rate: 0.04 Hz/cm 2 at 7.5 kV At the cosmic ray rate level (cosmic: ~0.03 Hz/cm2) Comparable performance as best oiled bakelite or glass RPCs

Dark Current ~0.5  kV No break down up to 9000 V

Status of BESIII RPCs Prototypes show the performance is as good as chambers made from oiled bakelite or glass A factory was setup in the south suburb of Beijing Pre-production started early 2004 Just has an internal production readiness review Making 2000 m 2 RPCs in 2 years

Technical Details of BESIII RPC Standard double gap structure Single layer of pick up strips Bulk Resistivity: 2x10 11 to 2x10 12  cm

Technical Details Gap Structure Spacer Arrangement

Compare to Low Cost Glass RPCs Developed by Monolith End caps by injection molding Noryl Envelope Thermoplastic soldering for gas sealing Spacers by injection molding (2 mm) Float Glass Resistive film Bakelite does not break Lower resistivity, bigger signal, slightly higher efficiency Bakelite RPC does not need a plastic envelop

Potential for NO A The factory in Beijing can make PRCs with maximum size 4’x8’ (5’x10’ in Europe) - Limited by their lamination press - Should be large enough for NO A They will be very happy to make a few for NO A

Plan First Step: Make several RPCs in Beijing and bring them back to U.S. for testing Single gap Double gap with three bakelite plates Second Step: Make several 4’x8’ chambers with the gap configuration we like With readout electrodes and ground plane on particle board