本文从多丝正比室(MWPC)特点出发,详细介绍了MSGC的工作原理、结构设计原理、结构参数(包括衬底材料、微条材料、工作气体)的选择依据以及应用前景,并报道了MSGC的最新研究进展.
参考文献
| [1] | Charpak G et al. Use of multiwire proportional counters to select and lacalize charged particles [J]. Nuclear Instruments and Methods in Physics Research, 1968, A 62:262 |
| [2] | Oed A. Posittion-sensitive detector with microstrip anode for electron multiplication with gases [J]. Nuclear Instruments and Methods in Physics Research, 1988, A 263:351 |
| [3] | Bootsman T M V et al. Time projection chamber with microstrip read-out [J]. Nuclear Instruments and Methods in Physics Research , 1994, A349: |
| [4] | Berg F D vd et al. Study of inclined particle tracks in micro strip gas counters [J]. Nuclear Instruments and Methods in Physics Research, 1994, A349:438 |
| [5] | Blank B et al. Electrostatic collection and detection of proton-rich projectile fragments in a microstrip-anode gas counter [J]. Nuclear Instruments and Methods in Physics Research, 1993, A330:83 |
| [6] | Oed A. Properties of micro-strip gas chambers (MSGC) and recent developments [J]. Nuclear Instruments and Methods in Physics Research, 1995, A367:34 |
| [7] | Bateman J E, Connoly J F. The status of the ICR/RAL BaF2-TMAE positron camera [J]. IEEE Transactions on Nuclear Science, 1992, RAL-092-085 |
| [8] | Bishai M R et al. Microstrip gas chambers obercoated with carbon, hydrogenated amorphous silicon, and glass,fihns [.J]. Nuclear Instruments and Methods in Physics Research, 1997, A 400:233-242 |
| [9] | Cicognani G et al. Stability of microstrip gas chambers with smal anode-cathode gap on ionic conducting glass [J].Nuclear Instruments and Methods in Physics Research, 1998, A 416:263-266 |
| [10] | Barr Aet al. Recent advances in the construction and testing of MSGCs [J]. Nuclear Instruments and Methods in Physics Research, 1997, A 392:99-104 |
| [11] | Duerdoth I P et al. Lifetime characteristics of Micro-strip gas chambers [J]. Nuclear Instruments and Methods in Physics Research, 1997, A 392:127-130 |
| [12] | Mack V et al. Factors influencing the performances of micro-strip gas chambers [J]. Nuclear Instruments and Methods in Physics Research, 1995, A 367:173-176 |
| [13] | David G Gobbi et al. Photon counting radiography with the gas microstrip detector [J]. Physics in Medicine and Biology, 1999, 44(5):1317-1335 |
| [14] | Barr A et al. Construction, test and operation in a high intensity beam of a small system of micro-strip gas chambers [J]. Nuclear Instruments and Methods in Physics Research, 1998, A 403:31-56 |
| [15] | Baru S E et al. One dimensional X-ray MSGC detector for synchrotron radiation experiments and medical imaging [J]. Nuclear Instruments and Methods in Physics Research, 1998, A 405:274-278 |
| [16] | Sauli F. Gas detectors: recent developments and future perspectives [J]. Nuclear Instruments and Methods in Physics Research, 1998, A 367:189-201 |
| [17] | Bouclier R et al. Ageing of microstrip gas chamber: problems and solutions [J]. Nuclear Instruments and Methods in Physics Research, 1996, A 381:289-319 |
| [18] | Bachmann S et al. High resolution micro-patten gaseous tracking detectors [J]. Nuclear Physics, 2000, A 663 and 664: 1069c-1072c |
| [19] | McMahon T et al. Study of the rate dependence of the gain of gas micostrip detectors with glass substrates in high intensity particle beams [J]. Nuclear Instruments and Methods in Physics Research, 1994, A 48:361 |
| [20] | Bouclier R et al. High flux operation of microstrip gas chambers on glass and plastic supports [J]. Nuclear Instruments and Methods in Physics Research, 1992, A 315:521 |
| [21] | Schmidt S et al. Simulation of electrostatic properties and gas amplification in microstrip gas chambers and comparison with measurements [J]. Nuclear Instruments and Methods in Physics Research, 1994, A 344:558 |
| [22] | Lemonnier M et al. First experimental results on new microstrip three dimensional geometry [J]. Nuclear Instruments and Methods in Physics Research, 1994, A 349:274 |
| [23] | Giomataris Y et al. MICROMEGAS: a high-granularity position-sensitive gaseous detector for high particle-flux environments [J]. Nuclear Instruments and Methods in Physics Research, 1996, A 376:29 |
| [24] | Angelini F et al. A large area, high gain micro gap chamber [J]. Nuclear Instruments and Methods in Physics Research, 1995, A 362:273 |
| [25] | Bellazzini R et al. The micro-gap chamber: a new detector for the next generation of high energy, high rate experimcnts [J]. Nuclear Instruments and Methods in Physics Research, 1995, A 368:259 |
| [26] | Bellazzini R et al. The micro-gap chamber: new developments [J]. Nuclear Instruments and Methods in Physics Research, 1996, A 384:192 |
| [27] | Bouclier R et al. New observeations with the gas electron multiplier (GEM) [J]. Nuclear Instruments and Methods in Physics Research, 1997, A 396:50 |
| [28] | Sauli F. A new concept for electron amplification in gas detectors [J]. Nuclear Instruments and Methods in Physics Research, 1997, A 386:531 |
| [29] | Bondar A et al. High and low-pressure operation of the gas electron multiplier [J]. Nuclear Instruments and Methods in Physics Research, 1997, A 419:418 |
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