Design of a neutrino source based on 37Ar isotope and technology of its production V. I. BarsanovYu. I. BarsanovYu. S. Khomyakov Nuclear Experimental Techniques Pages: 449 - 453
A technology and facility for extraction, purification, and collection of 37Ar from calcium oxide V. I. BarsanovA. A. DzhanelidzeV. E. Yantz Nuclear Experimental Techniques Pages: 454 - 460
Tagging of η mesons using the pd → 3Heη reaction near threshold Chr. BargholtzL. GerénI. Zartova Nuclear Experimental Techniques Pages: 461 - 467
Monte Carlo reconstruction of the shower coordinates and shape in the electromagnetic calorimeter A. N. Vasil’evYu. A. MatulenkoK. E. Shestermanov Nuclear Experimental Techniques Pages: 468 - 482
Measuring the distortion in nuclear emulsion using α particles from a radioactive source V. V. DubininaN. P. EgorenkovaV. M. Novikov Nuclear Experimental Techniques Pages: 483 - 488
A scintillation response and an ionization yield in pure xenon and mixtures of it with methane K. N. PushkinN. HasebeS. E. Ulin Nuclear Experimental Techniques Pages: 489 - 493
A study of the time and amplitude characteristics of the scintillation counter two meters long with ΦЭУ-115M photomultiplier tubes S. P. DenisovA. DzierbaS. Teige Nuclear Experimental Techniques Pages: 494 - 501
Transportation of the calibration coefficients of the scintillation calorimeter V. I. KryshkinV. V. TalovL. K. Turchanovich Nuclear Experimental Techniques Pages: 502 - 505
A digital dynamic amplitude-frequency spectrum analyzer V. A. Kalinnikov Application of Computers in Experiments Pages: 506 - 510
A simple data filter for the GPS navigator V. Sinivee Application of Computers in Experiments Pages: 511 - 512
A highly-sensitive weak-signal complex-amplitude meter V. N. V’yukhin Electronics and Radio Engineering Pages: 513 - 515
A nanosecond SOS generator with a peak power of 4 GW A. I. BushlyakovS. K. LyubutinS. N. Tsyranov Electronics and Radio Engineering Pages: 516 - 522
A power supply for simulating lightning-current pulses A. S. KravchenkoYu. V. Vilkov Electronics and Radio Engineering Pages: 523 - 530
A magnetic-thyristor pulse generator for electric-discharge technologies V. A. MakeevV. I. Gusel’nikovWang Fu Quan Electronics and Radio Engineering Pages: 531 - 533
A small low-inductance capacitor charged with 200-kV pulses A. V. SaushkinN. V. ZharovaV. F. Fedushchak Electronics and Radio Engineering Pages: 534 - 538
Provision of electromagnetic compatibility during creation of electrophysical facilities A. I. GerasimovV. S. GorkunovG. M. Skripka Electronics and Radio Engineering Pages: 539 - 548
An experimental stand for studying a high-current discharge in a dense gas A. V. BudinS. Yu. LosevA. F. Savvateev General Experimental Techniques Pages: 549 - 552
A speckle-correlation method for determining the dispersion of optical fibers and scattering parameters in optically inhomogeneous media using lasers with frequency deviation G. G. AkchurinA. G. Akchurin General Experimental Techniques Pages: 553 - 558
Experimental study of the depth dose distributions produced by an electron beam A. V. BelousovA. A. KurakinA. P. Chernyaev Physical Instruments for Ecology, Medicine, and Biology Pages: 559 - 562
A mean-count-rate meter with adaptive digital signal smoothing A. Žigić Physical Instruments for Ecology, Medicine, and Biology Pages: 563 - 564
A geophysical device for automation of multielectrode electrical prospecting A. Yu. BulgakovA. K. Manshtein Physical Instruments for Ecology, Medicine, and Biology Pages: 565 - 567
A setup for generation and investigation of cumulative dust jets in gas and plasma S. V. BulychevD. V. VyalykhV. D. Selemir Laboratory Techniques Pages: 568 - 572
Thermometry based on the intensity distribution in a thermal-radiation spectrum V. A. Kop’evI. A. KossyiN. M. Tarasova Laboratory Techniques Pages: 573 - 576
A prototype of the centrifugal pellet injector for the ITER tokamak I. V. VinyarA. Ya. LukinV. I. Panchenko Laboratory Techniques Pages: 577 - 584
A pneumatic injector of deuterium pellets for the TORE-SUPRA tokamak I. V. VinyarA. P. UmovI. A. Krasil’nikov Laboratory Techniques Pages: 585 - 591
Low-temperature high-pressure electrical leads in a compressed-helium medium A. E. PetrovaS. M. Stishov Laboratory Techniques Pages: 592 - 593