Персона: Воробьев, Владислав Станиславович
Email Address
Birth Date
Научные группы
Организационные подразделения
Статус
Фамилия
Имя
Имя
Результаты поиска
Anisotropy in the Directions of Arrival of Muon Bundles Detected at the NEVOD Experimental Complex
2019, Khohlov, S. S., Amelchakov, M. B., Vorobyev, V. S., Izhbulyakova, Z. T., Kovylyaeva, A. A., Хохлов, Семен Сергеевич, Амельчаков, Михаил Борисович, Воробьев, Владислав Станиславович
© 2019, Allerton Press, Inc.Abstract: Results are presented from studying the anisotropy of the flux of very high-energy cosmic rays on the basis of muon bundles. Events were recorded in the period 2012–2018 by the DECOR coordinate-tracking detector, part of the unique research setup of the NEVOD experimental complex. The results from analyzing the anisotropy for two samples of events with muon bundles corresponding to different ranges of primary particle energy (E > 1015 eV and E > 1016 eV) are discussed, and estimates are made of dipole anisotropy parameters (amplitude and phase).
Investigation of muon bundles generated by UHECR by means of the new coordinate-tracking detector
2019, Zadeba, E. A., Borisov, A. A., Fakhrutdinov, R. M., Ivanov, S. S., Kokoulin, R. P., Kompaniets, K. G., Kozhin, A. S., Petrukhin, A. A., Vorobyev, V. S., Yashin, I. I., Задеба, Егор Александрович, Борисов, Анатолий Андреевич, Фахрутдинов, Ринат Макаримович, Кокоулин, Ростислав Павлович, Компаниец, Константин Георгиевич, Кожин, Анатолий Сергеевич, Петрухин, Анатолий Афанасьевич, Воробьев, Владислав Станиславович, Яшин, Игорь Иванович
© Published under licence by IOP Publishing Ltd.The new coordinate-tracking detector based on drift chambers (CTUDC) is created in MEPhI. The detector represents two planes with total area of 30 m2 placed on the opposite sides of Cherenkov water detector of 2000 m3 volume. Each plane consists of 8 large multiwire drift chambers (4000x508x112 mm3). The key advantages of these chambers are a large effective area (1.85 m2) and a good coordinate and angular resolution with a small number of measuring channels. From the beginning of 2017, CTUDC operates as a part of the experimental complex NEVOD. The detector is designed for measuring of high density muon bundles (up to 10 particles per m2) at zenith angles in the range from 30° to 90°. The results of the CTUDC operation during the last year are given, the first distributions of the events in zenith angle, muon bundle multiplicity and density obtained from the detector data are discussed.
Стенд для исследования характеристик многопроволочных дрейфовых камер
2025, Задеба, Е. А., Воробьев, В. С., Газизова, Д. В., Компаниец, К. Г., Мирошниченко, Е. А., Николаенко, Р. В., Трошин, И. Ю., Хомчук, Е. П., Шульженко, И. А., Шутенко, В. В., Воробьев, Владислав Станиславович, Газизова, Диана Вадимовна, Шутенко, Виктор Викторович, Хомчук, Евгений Павлович, Трошин, Иван Юрьевич, Шульженко, Иван Андреевич, Николаенко, Роман Владимирович, Компаниец, Константин Георгиевич, Мирошниченко, Егор Андреевич
В НИЯУ МИФИ создается крупнейший в мире координатный детектор ТРЕК на дрейфовых камерах для исследования мюонов космических лучей. Основой установки являются многопроволочные дрейфовые камеры (ДК), ранее применявшиеся в нейтринном детекторе ИФВЭ (Протвино) на ускорителе У-70. Для исследования характеристик ДК перед установкой в ТРЕК и проектируемый детектор МДМ создан стенд, позволяющий определять их эффективность, координатную и угловую точность, зонные характеристики. В статье приводится устройство стенда и результаты тестирования 394 ДК для установок ТРЕК и МДМ.
Anisotropy of the high energy cosmic ray flux measured by means of muon bundles in the Experimental complex NEVOD
2019, Izhbulyakova, Z. T., Amelchakov, M. B., Vorobyev, V. S., Kovylyaeva, A. A., Kokoulin, R. P., Khohlov, S. S., Амельчаков, Михаил Борисович, Воробьев, Владислав Станиславович, Кокоулин, Ростислав Павлович, Хохлов, Семен Сергеевич
© 2019 Published under licence by IOP Publishing Ltd. The work is devoted to the study of the anisotropy of the high energy cosmic ray flux by means of muon bundles registered during 2012-2018 with the coordinate-tracking detector DECOR, which is a part of the Unique Scientific Facility Experimental complex NEVOD. We have analyzed data for two event samples corresponding to E > 10 15 eV and E > 10 16 eV energy ranges of primary particles. The method of data processing is described and estimates of the dipole anisotropy parameters (the amplitude and the phase) are presented.
Исследование многочастичных событий в космических лучах на прототипах координатно-трекового детектора ТРЕК
2022, Воробьев, В. С., Воробьев, Владислав Станиславович, Петрухин, А. А.
The FPGA time-to-digital converter for the large-scale detector TREK based on multi-wire drift chambers
2020, Vorobyev, V. S., Borissov, A. A., Kozhin, A. S., Kompaniets, K. G., Fakhrutdinov, R. M., Zadeba, E. A., Воробьев, Владислав Станиславович, Кожин, Анатолий Сергеевич, Компаниец, Константин Георгиевич, Фахрутдинов, Ринат Макаримович, Задеба, Егор Александрович
The new large-scale coordinate-tracking detector TREK is under construction in MEPhI. It is based on 264 multi-wire drift chambers (4000 x 508 x 112 mm(3) size) developed in IHEP for experiments on the neutrino channel of the U-70 accelerator, and will have 250 m(2) of continuous effective area. The main goal of the project is the solution of so-called "muon puzzle": the unpredicted by any theory excess of high multiplicity muon bundles generated by ultra-high energy primary cosmic rays. Besides of a set of field-forming wires, each multi-wire drift chamber has 4 signal ones. The current from these wires is processed by the shaper-amplifier AMP-4, mounted on the front of the chamber. It generates LVDS pulses that should be processed by multi-channel TDC that faces two main requirements: large matching window (more than 6000 ns) with last significant digit (LSD) less than 10 ns and capability to hold more than 50 hits per channel in a single event. These conditions were fulfilled by the new time-to-digital converter developed on the basis of Cyclone V FPGA in MEPhI. This paper presents the design of the TDC, its main features and the first benchmarks of its performance.