- Разработка МПГК на подложках с электронной проводимостью с быстродействием свыше 106 частиц·с-1·мм-2, способных устойчиво работать при высоких давлениях и обладающих высокой радиационной стойкостью в отсутствии потоков адронов.
- Исследование и оптимизация свойств каскадов ГЭУ. В частности, изучение зависимости газового усиления и условий возникновения пробоя при облучении адронами от количества ГЭУ в каскаде, от распределения потенциалов между электродами ГЭУ в каскаде, а также от газовой смеси.
- Разработка и создание уникальных прецизионных быстро действующих детекторов для экспериментов с СИ, обладающих пространственным разрешением ~100 мкм и быстродействием в диапазоне от ~106 фотонов/мм2·с до ~1012 фотонов/мм2·с: микрополосковой ионизационной камеры, детектора для экспериментов по широкоугольной дифракции ОД-4 и детектора для изучения взрывных процессов DIMEX.
- Разработка уникального детектора УФ-фотонов большой площади на основе тройного каскада ГЭУ с отражающим CsI фотокатодом, работающего в чистом CF4, для черенковского детектора HBD в эксперименте PHENIX.
- Разработка и создание детекторов на основе каскада из трех ГЭУ для системы регистрации рассеянных электронов эксперимента КЕДР на коллайдере ВЭПП-4М, обладающих пространственным разрешением ~70 мкм и позволяющих эффективно регистрировать многотрековые события.
2.R. Bouclier, J.J. Florent, J. Gaudaen, F. Sauli, L. Shekhtman. Development of microstrip gas chambers on thin plastic supports. // Nucl. Instrum.and Methods. 1992. V. A315. P. 521.
3.R. Bouclier, J.J. Florent, J. Gaudaen, G. Million, F. Sauli, L. Shekhtman. Microstrip Gas Chambers on thin plastic supportsю // Proc. Joint. Inter. Lepton-Photon Symp. and Europhysics Conf. on High En. Physics. Geneva. Switzerland. July-August 1991.V. 1. P. 242.
4.T. Beckers, R. Bouclier, Ch.Garabatos, …, L.I. Shekhtman, et al. Optimization of microstrip gas chamber design and operating conditions. // Nucl. Instrum. and Methods. 1994. V. A346. P. 95.
5.L. Allunni, R. Bouclier, G. Fara, …, L.I. Shekhtman, et al. Performance of MSGC on electronically and ionically conductive substrata in various operational conditions. // Nucl. Instrum. and Methods. 1994. V. A348. P. 344.
6.R. Bouclier, M. Capeans, C. Garabatos, …, L.Shekhtman, et al. Micro-strip gas chambers with thin electron-conducting layers. // Proc. Int. Workshop on MSGC. Legnaro. 13-14 October 1994. P. 39.
7.R. Bouclier, M. Capeans, J. Evans, …, L. Shekhtman, et al. Optimization of design and beam-test of micro-strip gas chambers. // Nucl. Instrum. and Methods. 1995. V. A367. P. 163-167.
8.R. Bouclier, J.J. Florent, J. Gaudaen, …, L. Shekhtman, et al. High-rate performance of Microstrip gas chambers on glass and plastic supports. // Nucl. Instrum.and Methods. 1992. V. A323. P. 240.
9.G.D. Minakov, Yu.N. Pestov, V.S. Prokopenko, L. Shekhtman. Performance of gas microstrip chambers on glass substrata with ionic and electronic conductivity. // Nucl. Instrum.and Methods. 1993. V. A326. P. 566.
10.R. Bouclier, G. Million, L. Ropelewski, F. Sauli, Yu.N. Pestov, L. Shekhtman. Performance of gas microstrip chambers on glass substrata with electronic conductivity. // Nucl. Instrum.and Methods. 1993. V. A332. P. 100.
11.Yu.N. Pestov, L.I. Shekhtman. Influence of the bulk resistivity of glass with electronic conductivity on the performance of microstrip gas chamber. // Nucl. Instrum. and Methods. 1994. V. A338. P. 368.
12.J. Bohm, R. Bouclier, M.Capeans, …, L. Shekhtman, et al. High rate operation and life-time studies with micro-strip chambers. // Nucl. Instrum. and Methods. 1995. V. A360. P. 34-41.
13.R. Bouclier, C. Garabatos, G. Manzin, …, L. Shekhtman, et al. Ageing studies with micro-strip gas chambers. // Nucl. Instrum. and Methods. 1994. V. A348. P. 109.
14.R. Bouclier, M. Capeans, C. Garabatos, …, L. Shekhtman, et al. Ageing studies with micro-strip gas chambers. // Proc. Int. Workshop on MSGC. Legnaro. 13-14 October 1994. P. 48.
15.J.E. Bateman, J.F. Connolly, Yu.N. Pestov, L.I. Shekhtman, et al. Some lifetime characteristics of gas microstrip detectors fabricated on semiconductive glass. // Proc.Int.Workshop on MSGC. Legnaro. 13-14 October 1994. P. 22.
16.R. Bouclier, M. Capeans, C. Garabatos, …, L. Shekhtman, et al. Ageing studies with micro-strip gas chambers. // Nucl. Phys. B (Proc. Suppl.). 1995. V. 44. P. 557-566.
17.R. Bouclier, M. Capeans, C. Garabatos, …, L. Shekhtman, et al. Ageing of microstrip gas chambers: problems and solutions. // Nucl. Instrum. and Methods. 1996. V. A381. P. 289.
18.B. Boimska, R. Bouclier, M. Capeans, …, L. Shekhtman, et al. Study of ageing and gain limits of Microstrip Gas Chambers at high rates. // Proceedings supplements Nuclear Physics B. 1998. V. 61B. P. 498-503.
19.O. Adriani, F. Angelini, N. Bacchetta, …, L. Shekhtman, et al. Performance of a prototype of the CMS central detector. // Nucl. Instrum. and Methods. 1995. V. A367. P. 189-192.
20.V. Nagaslaev, B. Baiboussinov, A. Bondar, L. Shekhtman, A. Sokolov. Performance of MSGC in high longitudinal magnetic field. // Proc. of the Int. Worshop on MSGC. Lyon, France. November 1995. Editors: D. Contardo, F. Sauli. P. 115.
21.F. Angelini, N. Bacchetta, R. Bellazzini, …, L.Shekhtman, et al. Study of the bunch crossing identification at LHC using microstrip gas chambers. // Nucl. Instrum. and Methods. 1996. V. A368. P. 345.
22.M. Ackermann, S. Atz, V. Aulchenko, …, L. Shekhtman, et al. Large scale test of wedge shaped micro strip gas counters. // Nucl. Instrum. and Methods. 1999. V. A436. P. 313-325.
23.R. Bouclier, M. Capeans, C. Garabatos, …, L. Shekhtman, et al. On some factors affecting discharge conditions in micro-strip gas chambers. // Nucl. Instrum.and Methods. 1995. V. A365. P. 65-69.
24.L. Shekhtman. Micro-pattern gaseous detectors. // Nucl. Instrum. and Methods. 2002. V. A494. P. 128-141.
25.A. Bondar, A. Buzulutskov, L. Shekhtman, A. Sokolov, A. Tatarinov. Experience with wedge MSGC-GEM and wedge micro-groove/GEM structures in high intensity hadron beam. // International Workshop on MICRO-PATTERN GAS DETECTORS. June 28-30, 1999. Orsay, France. P. 65-68.
26.M. Ageron, A. Albert, T. Barvich, …, L. Shekhtman, et al. Robustness test of a system of MSGC + GEM detectors at the Cyclotron facility of the Paul Scherrer Institute. // Nucl. Instrum. and Methods. 2001. V. A471. P. 380.
27.M. Ageron, A. Albert, T. Barvich, …, L. Shekhtman, et al. Experimental and simulation study of the behaviour and operation modes of MSGC+GEM detectors. // Nucl. Instrum. and Methods. 2002. V. A489. P. 121-139.
28.B. Ketzer, S. Bachmann, M. Capeans, ..., L. Shekhtman, et al. GEM detectors for COMPASS. // IEEE Transactions on Nuclear Science. 2001. V. 48. №4. P. 1065.
29.S. Bachmann, A. Bressan, B. Ketzer, …, L. Shekhtman, et al. Performance of GEM detectors in high intensity particle beams. // Nucl. Instrum. and Methods. 2001. V. A470. P. 548-561.
30.S. Bachmann, A. Bressan, M. Capeáns, …, L. Shekhtman, et al. Discharge studies and prevention in the gas electron multiplier (GEM). // Nucl. Instrum. and Methods. 2002. V. A479. P. 294-308.
31.Z. Fraenkel, A. Kozlov, M. Naglis, I. Ravinovich, L. Shekhtman, et al. A hadron blind detector for the PHENIX experiment at RHIC. // Nucl. Instrum.and.Methods. 2005. V. A546. P. 466-480.
32.V.M Aulchenko, O.L. Beloborodova, A.V. Bobrov, …, L.I. Shekhtman, et al. Operation of the triple-GEM detectors in the tagging system of the KEDR experiment on the VEPP-4M collider. // J. of Instrum. 2011. V. 6. P07001.
33.A. Bondar, A. Buzulutskov, R. de Oliveira, …, L. Shekhtman, et al. Light multi-GEM detector for high-resolution tracking systems. // Nucl. Instrum. and Methods. 2006. V. A556. P. 495-497.
34.L.I. Shekhtman. High pressure gas avalanche chambers for medical radiography. // Phys. Med. 1993. V. IX. №2-3. P. 117.
35.E.A. Babichev, S.E. Baru, A.G. Khabakhpashev, …, L.I. Shekhtman, et al. High pressure multiwire proportional and gas microstrip chambers for medical radiology. // Nucl. Instrum.and Methods. 1995. V. A360. P. 271.
36.E.A. Babichev, S.E. Baru, V.R. Groshev, …, L.I. Shekhtman, et al. Photon counting and integrating analog gaseous detectors for digital scanning radiography. // Nucl. Instrum. and Methods. 1998. V. A419. P. 290-294.
37.V.R. Groshev, V.R. Kozak, V.I. Nifontov, …, L.I. Shekhtman, et al. Digital mammography with multi-electrode ionization chamber. // Nucl. Instrum. and Methods. 2000. V. A454. P. 130.
38.E.A. Babichev, S.E. Baru, V.R. Groshev, …, L.I. Shekhtman, et al. Usage of two types of high pressure Xenon chambers for medical radiography. // Nucl. Instr. and Methods. 2001. V. A461. P. 430-434.
39.E.A. Babichev, S.E. Baru, V.R. Groshev, …, L.I. Shekhtman, et al. The new effective detector for digital scanning radiography. // Nucl. Instrum. and Methods. 2003. V. A513. P. 57-60.
40.E.A. Babichev, S.E. Baru, V.R. Groshev, …, L.I. Shekhtman, et al. Comparison of Xe and Kr filled ionization chambers for application in digital scanning radiography. // Nucl. Instrum. and. Methods. 2004. V. A525. P. 352-355.
41.V.M. Aulchenko, S.E. Baru, O.V. Evdokov, …, L.I. Shekhtman, et al. Fast high resolution gaseous detectors for diffraction experiments and imaging at synchrotron radiation beam. // Nucl. Instrum. and Methods. 2010. V. A623. P. 600-602.
42.E.A. Babichev, S.E. Baru, D.N. Grigoriev,…, L.I. Shekhtman, et al. High-resolution detectors for medical applications and synchrotron radiation researchю // Nucl. Instrum. and Methods. 2011. V. A628. P. 440-443.
43.V.M. Aulchenko, S.E. Baru, M.S. Dubrovin, G.A. Savinov, L.I. Shekhtman, et al. One- and Two-coordinate detectors in BINP. // J. Synchrotron Rad. 1998. V. 5. P. 263-267.
44.L. Shekhtman. Novel position-sensitive gaseous detectors for X-ray imaging // Nucl. Instrum.and Methods. 2004. V. A522. P. 85.
45.A. Breskin, A. Buzulutskov, R. Chechik, G. Garty, F. Sauli, L. Shekhtman. The CsI Multi-GEM Photomultiplier. // Intern. Workshop on MICRO-PATTERN GAS DETECTORS. June 28-30, 1999. Orsay, France. P. 107-110.
46.A. Buzulutskov, A. Breskin, R. Chechik, G. Garty, F. Sauli, L. Shekhtman. Further studies of the GEM photomultiplier. // Nucl. Instrum. and Methods. 2000. V. A442. P. 68.
47.A. Buzulutskov, A. Breskin, R. Chechik, G. Garty, F. Sauli, L. Shekhtman. The GEM photomultiplier operated with noble gas mixtures. // Nucl. Instrum. and Methods. 2000. V. A443. P. 164.
48.A. Breskin, A. Buzulutskov, R. Chechik, … , L. Shekhtman, et al. Sealed GEM photomultiplier with a CsI photocathode: Ion feedback and ageing. // Nucl. Instrum. and Methods. 2002. V. A478. P. 225-229.
49.A. Kozlov, I. Ravinovich, L. Shekhtman, et al. Development of a triple GEM UV-photon detector operated in pure CF4 for the PHENIX experiment. // Nucl. Instrum. and Methods. 2004. V. A523. P. 345.
50.F. Angelini, R. Bellazzini, A. Brez, M.M. Massai, G. Spandre, M. Torquati, L.I. Shekhtman. Performance of Gas microstrip chambers at high pressure. // Proc. Eur. Workshop on X-ray detectors for SR sources, Assois, France, September-October 1991. P. 96.
51.S.E. Baru, V.V. Neustroev, A. Papanestis, G.A. Savinov, L.I. Shekhtman. One Dimensional X-ray MSGC detector. // Proc. of the Intern. Workshop on MSGC. Lyon, France. November 1995. Editors: D.Contardo, F.Sauli. P. 27.
52.S.E. Baru, V.V. Neustroev, A. Papanestis, …, L.I. Shekhtman, et.al. One dimensional X-ray MSGC detector for synchrotron radiation experiments and medical imaging. // Nucl. Instrum. and Methods. 1998. V. A405. P. 274-278.
53.Aulchenko V.M., Bukin M.A., Grebenkin S.S., Papushev P.A., Shekhtman L.I., et al. A new one-coordinate gaseous detector for WAXS experiments (OD4). // Nucl. Instrum. and Methods. 2007. V. A575. P. 251.
54.V.M. Aulchenko, P.A. Papushev, M.R. Sharafutdinov, L.I. Shekhtman, et al. Development of a one-coordinate gaseous detector for wide angle diffraction studies // J. of Instrum. 2008. V. 3. P04008.
55.V.M. Aulchenko, P.A. Papushev, M.R. Sharafutdinov, L.I. Shekhtman, et al. Progress with one-coordinate detector for WAXS. // Nucl. Instrum. and Methods. 2009. V. A603. P. 69-72.
56.Аульченко В.М., Жуланов В.В., Шехтман Л.И. Однокоординатный рентгеновский детектор с быстрой записью изображения. // Поверхность. 2002. №11. С. 10-12.
57.V. Aulchenko, P. Papushev, S. Ponomarev, L. Shekhtman, V. Zhulanov. Development of a one-dimensional detector for the study of explosions with a synchrotron radiation beam. // J. Synchrotron Rad. 2003. №10. P. 361-365.
58.V. Aulchenko, O. Evdokov, S. Ponomarev, L. Shekhtman, et al. Development of fast one-dimensional X-ray detector for imaging of explosions. // Nucl. Instrum.and Methods. 2003. V. A513. P. 388-393.
59.A. Aulchenko, V. Zhulanov, L. Shekhtman, et al. One-dimensional detector for study of detonation processes with synchrotron radiation beam. // Nucl. Instrum. and. Methods. 2005. V. A543. P. 350-356.
60.V.M. Aulchenko, M.A. Bukin, P.A. Papushev, L.I. Shekhtman, et al. Detectors for Time-resolved Studies at SR Beam. // Proc. of the SNIC Symposium. 2006. Stanford, California. Edited by V. Luth. eConf C0604032. 0195.
61.V.M. Aulchenko, O.V. Evdokov, L.I. Shekhtman, et al. Detector for imaging of explosions: present status and future prospects with higher energy X-rays. // J. of Instrum. 2008. V. 3. P05005.
62.V.M. Aulchenko, O.V. Evdokov, L.I.Shekhtman, et al. Current status and further improvements of the detector for imaging of explosions. // Nucl. Instrum. and Methods. 2009. V. A603. P. 73-75.
63.В.М. Аульченко, О.В. Евдоков, И.Л. Жогин,…, Л.И. Шехтман и др. Детектор для изучения взрывных процессов на пучке синхротронного излучения. // Приб. и техн. экспер. 2010. №3. C. 20-35.
64.V.M. Aulchenko, A.E. Bondar, A.F. Buzulutskov, …, L.I. Shekhtman, et al. Upgrade of the KEDR tagging system. // Nucl. Instrum. and Methods. 2002. V. A494. P. 241-245.
65.V.M. Aulchenko, A.V. Bobrov, A.E. Bondar, L.I. Shekhtman, et al. Triple-GEM detectors for KEDR tagging system. // Nucl. Instrum. and Methods. 2009. V. A598. P. 112–115.
66.Поросев В.В., Шехтман Л.И., Зеликман М.И., Блинов Н.Н.(мл.). Влияние корреляции шумов в каналах цифрового рентгеновского приёмника- преобразователя на оценку квантовой эффективности регистрации. // Медицинская техника. 2004. Т. 38. №5. С. 233-236.
67.K.A. Ten, E.R. Pruuel, L.A. Merzhievsky, …, L.I. Shekhtman, et al. Tomography of the flow field of detonation product using SR. // Nucl. Instrum. and Methods. 2009. V. A603. P. 160–163.
68.K.A. Ten, V.M. Aulchenko, L.A. Lukjanchikov, E.R. Pruuel, L.I. Shekhtman, et al. Application of introduced nano-diamonds for the study of carbon condensation during detonation of condensed explosives. // Nucl. Instrum. and Methods. 2009. V. A603. P. 102-104.
69.В.М. Титов, Э.Р. Прууэл, К.А. Тен, …, Л.И. Шехтман и др. Опыт применения синхротронного излучения для исследования детонационных процессов. // Физика горения и взрыва. 2011. №6. С. 3-16.