• Высоцкий Владимир Иванович - автор теории холодного ядерного синтеза

  CV и список основных публикаций проф. В.И.Высоцкого
  CV and the list of main publication of prof. Vladimir Vysotskii
  

  Родился 29.07.1946, г. Киев.
  Доктор физико-математических наук, профессор, заслуженый деятель науки и техники Украины, заведующий кафедры математики и теоретической радиофизики, факультет радиофизики, электроники и компъютерных систем, Киевский национальный университет имени Тараса Шевченко.
  Окончил радиофизический факультет Киевского государственного университета имени Т.Г.Шевченко (в настоящее время – Киевский национальный университет имени Тараса Шевченко) в 1969 году (диплом с отличием).
  В 1969-71 служба в Советской Армии (начальник радиолокационной станции в Эвенкийском национальном округе, Красноярский край).
  В 1971-1974 аспирант радиофизического факультета Киевского государственного университета имени Т.Г.Шевченко.
  Работал на должности младшего (1974-1976) и старшего (1976-1979) научного сотрудника.
  С 1979 на педагогической работе – доцент кафедры квантовой радиофизики (1979-1983), доцент кафедры теоретической радиофизики (1983-1986), доцент кафедры математики и теоретической радиофизики (1986-1993), профессор кафедры математики и теоретической радиофизики (1993-2006).
  С 2006 – заведующий кафедры математики и теоретической радиофизики Киевского национального университета имени Тараса Шевченко.
  В 1975 защитил кандидатскую диссертацию “Теория вынужденного мессбауэровского излучения” (теоретическая физика), в 1992 – докторскую диссертацию “Модели и теория непорогового и когерентногол взаимодействия излучения и частиц с кристаллами” (теоретическая физика).
  Читает курсы лекций “Квантовая механика”, “Ядерная физика и астрофизика”, «Статистическая радиофизика», “Избранные разделы биофизики и радиобиологии”, “Радиационные эффекты в молекулярной биологии” для студентов радиофизического факультета, а также курсы лекций «Ядерные технологии» и «Ядерные энергетиченские системы» на других факультетах..

  Основные направления научных исследований:

  • Исследование моделей и систем лазерной физики высоких энергий и частот. Созданы и исследованы модели рентгеновских и гамма-лазеров с безинверсним механизмом квантового усиления (модели на основе многоуровневых ядерных систем с применением охлаждения и сильного магнитного поля, с использованием квантовой отдачи для расщепления резонансов поглощения и усиления, с использованием нелинейных процессов, в частности параметрического усиления в комбинированном электронно-ядерном процессе при шумовой накачке и т.д.). Исследованы механизмы воздействия мощного лазерного излучения на электронно-ядерные системы.

  • Исследование особенностей когерентных процессов и явлений в ядерной и атомной физике. Впервые построена теория и проведены успешные эксперименты по управлению временем жизни и вероятностью спонтанного гамма-распада и бета-распада (в частности, внутренней конверсией ядер) радиоактивных ядер. Созданы и рассмотрены модели систем энерговыгодного ядерного синтеза на основе пучков дейтерия в кристаллах в условиях ориентационного движения и при наличии дополнительного лазерного облучения. Рассмотрены особенности аксиального каналирования позитронов в цеолитах и ​​волокнах асбеста и разработаны модели лазерных систем на основе таких каналированных состояний. Предложено несколько методов каналирования нейтронов и других нейтральных частиц как с магнитным моментом так и без него (в частности, нейтральных атомов) и квантов в объеме кристаллов и у их поверхности. Построенная (и адаптирована к различным физическим систем) теория формирования когерентных коррелированных состояний частиц в различных потенциальных полях и показано, что за счет таких состояний возможна эффективная реализация ядерного синтеза и других процессов при малой (в частности, тепловой) энергии с участием как легких, так и тяжелых ядер. Этот эффект связан с увеличением прозрачности потенциального барьер на много порядков за счет формирования крупных флуктуаций энергии и импульса частицы при малой средней энергии.
  Разработал теорию и вместе с соавторами открыл и исследовал новое физическое явление – генерацию управляемого (по энергии и направлению распространения) рентгеновского излучения при кавитации жидкости.

  • Исследование механизмов реализации ядерных процессов при низкой энергии в физических и биологических системах на основе явления ослабления и подавления действия кулоновского потенциального барьера при взаимодействии заряженных частиц за счет автомодельному формирования когерентных коррелированных состояний этих частиц. Исследованы механизмы реализации ядерного синтеза при малой энергии в деформированных кристаллах и при наличии внешнего резонансного возбуждения низкой частоты. Построена теория фундаментальных ядерных превращений (синтез и трансмутация) изотопов в живых микробиологических культурах и их системах. Вместе с соавторами проведены эксперименты, которые подтвердили протекания этих процессов, и рассмотрены их ядерные, биохимические и биофизические аспекты. Впервые экспериментально показано, что в процессе роста таких культур имеет место очень существенное (во много раз) преобразование (трансмутация) стабильных и нестабильных изотопов.
  Впервые в прямых экспериментах продемонстрирована ускоренная (в 100-1000 раз по сравнению со спонтанным распадом) деактивация долгоживущих реакторных радиоактивных изотопов (в частности цезия-137) с преобразованием их в стабильные изотопы других элементов. Показано, что эти процессы базируются на кратковременном ослаблении действия кулоновского барьера за счет формирования когерентных коррелированных состояний на стадии клеточного деления и других динамических биохимических процессов.

  • Исследование ядерных процессов при аномальных и критических условиях. Получено новое уравнение состояния электронно-ядерной материи и впервые доказана возможность существования сверхтяжелых квазистабильные ядер с массовыми числами в пределах А = 300-10000, устойчивость которых обеспечивается за счет влияния сверхплотного электронного газа. Найдено и исследован неизвестный ранее динамический механизм реализации этого метода нуклеосинтеза в условиях земной лаборатории и проведены прямые эксперименты по созданию таких ядер, которые подтвердили эти результаты. На основе модифицированного уравнения состояния предусмотрена возможность образования электрон-протонных звезд и вычислено условия такого неизвестного ранее астрофизического процесса. Построена модель генерации космических лучей, которая связана с процессом кулоновского взрыва части материи электрон-протонных звезд.

  • Исследование физических аспектов фундаментальных проблем биофизики и радиобиологии. Рассмотрены проблемы радиационной устойчивости ДНК по отношению к действию свободных радикалов и облучения. Впервые предложен и исследован неферментативный метод саморепарации двойных разрывов ДНК, которые являются наиболее опасным следствием интенсивного радиационного облучения. Впервые созданы модели и исследованы молекулярные механизмы радиационного гормезиса (положительного влияния сверхмалых доз) и радиационного антагонизма (взаимной противодействия различных факторов радиационных впечатлений ДНК), которые хорошо согласуются с экспериментами. Разработан физический механизм дальнего (бесконтактного) взаимного распознавания фрагментов ДНК, основанный на комбинации действия всех физических сил во внутриклеточной среде.

  • Исследование пространственной структуры воды и проблемы ее “памяти”, понимаемая как возможность длительного сохранения измененных (за счет управляемого внешнего воздействия) электродинамических и вязкостных характеристик воды. Предложен и исследован механизм долговременной памяти воды, основанный на клатратного модели ее структуры. Проведены исследования влияния активации воды на ее физические свойства. Открыты и исследованы механизмы существенного влияния воды, облученной оптимальное время слабым электромагнитным полем с частотой 8 Гц, на процессы клеточного деления, метаболизм и на эффективность действия иммунной системы. Впервые обнаружены и исследованы эффекты бактериостатического действия такой воды, а также эффекты существенного торможения канцерогенных процессов у мышей. Показано, что вязкость такой воды при малой скорости ее движения уменьшается в сотни раз, что имеет очень большое значение для процессов жизнедеятельности.

  • Впервые создана теория, а затем исследована возможность существования и распространения незатухающих температурных волн, частота которых определяется временем локальной тепловой релаксации в данной среде. Вместе с соавторами впервые в мире проведены многочисленные успешные эксперименты по генерации и использованию таких волн для ряда практических применений (в частности, для инициирования рентгеновского излучения в удаленных мишенях и для инициации управляемого ядерного синтеза в удаленных холодных мишенях).

  Высоцкий В.И. был одним из основателей Украинского физического общества в 1992 и председателем Киевского отделения Украинского физического общества (1992-1996).

  В течение 5 лет (1993-1998) был ученым секретарем секции “Приборостроение и радиоэлектроника” Комитета по Государственным премиям Украины.

  В 2014 году Указом Президента Украины Высоцкому В.И. присвоено почетное звание “Заслуженный деятель науки и техники Украины”.

  В 2019 Международное ядерное общество “International condensed matter nuclear society” наградило Высоцкого В.И. медалью Джулиано Препарата, которая вручается каждый год только одному ученому в мире.

  Общее число научных публикаций – около 700, включая около 400 статей и патентов, а также 14 монографий и учебников, изданных в США, Японии, Нидерландах, Индии, России, Украине.

  Список ниже

  Монографии и учебники

  • Высоцкий В.И., Кузьмин Р.Н. Гамма-лазеры, М., 1989, 176 с. • Vysotskii V.I.,Kornilova A.A. Nuclear Fusion and transmutation of isotopes in biological systems, Moscow, MIR Publishing House, Russia, 2003, 302 p. • Vysotskii V.I., Smirnov I.V., Kornilova A.A.Introduction to the Biophysics of Activated Water, Universal Publishiers, Roca Raton, Florida, USA, 2005, 160 p. • Vysotskii V.I., Adamenko S.V. Stability of electron-nucleus form of matter and methods of controlled electron-nuclear collapse. Chapter in the Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 415-541. • Высоцкий В.И. Квантовая механика и ее применение в прикладной физике, 2008, изд. Киевского университета, 358 с. (учебник награжден Шевченковской премией Киевского университета за 2011 год) • Vysotskii V.I., Kornilova A.A. Nuclear transmutation of stable and radioactive isotopes in biological systems, Pentagon Press, India, 2009, 187 p. • Vysotskii V.I., Kornilova A.A., Smirnov I.V. Applied biophysics of activated water (the physical properties, biological effects and medical applications of MRET activated water), World Scientific Publishing, 2009, 317 p. • Высоцкий В.И. и др. Атомная и ядерная физика в примерах и вопросах, (ред. Высоцкий В.И.) 2011, изд. Киевского университета, 511 с. • Vysotskii V.I., Kornilova A.A. MOSSBAUER SPECTROSCOPY: APPLICATIONS IN CHEMITRY, BIOLOGY, AND NANOTECHNOLOGY, Editors: Virender K. Sharma, Gostar Klingelhofer, and Tetsuaki Nishida, (Tentative) Publication Date: April 2013, Projected Page Count: 450 pages, John Wiley and Sons, Inc. Book ISBN: 9781118057247; Chapter 14, Сontrolled spontaneous decay of Mossbauer nuclei (theory and experiments), p. 292-315. • Vysotskii V.I., Kornilova A.A. MRET water science. Physics-chemical part. Book, Japan, Publ. house “Sakumei-sha”, 2017, 100 p. (In Japanese). • Vysotskii V.I., Kornilova A.A. MRET water science. Biology part. Book, Japan, Publ. house “Sakumei-sha”, 2017, 114 p. (In Japanese). • Vysotskii V.I., Kornilova A.A. Effective LENR and transmutation of stable and radioactive isotopes in growing biological systems. CHAPTER 12., pp. 205-232 in the book: Cold Fusion. Advances in Condensed Matter Nuclear Science, Edited by Jean-Paul Biberian, Elsevier, 2020. • Vysotskii V.I., Vysotskyy M.V. Universal mechanism of LENR in physical and biological systems on the base of coherent correlated states of interacting particles. CHAPTER 17 pp. 333-370 in the book: Cold Fusion. Advances in Condensed Matter Nuclear Science, Edited by Jean-Paul Biberian, Elsevier, 2020. • Высоцкий В.И., Корнилова А.А. Проблема и методы создания управляемых источников мессбауэровского и рентгеновского излучения, Москва, REGNUM,2021, 105 c.

  В.И.Высоцкий, Корнилова А.А. Проблема и методы создания управляемых источников мессбауэровского и рентгеновского излучения, Москва, REGNUM,2021, 105 c.

  Основные научные статьи.

  В.И.Высоцкий, М.В.Высоцкий, Корнилова А.А. Горячий лазерный термояд или низкотемпературные ядерные реакции (анализ и перспективы первых экспериментов по лазерному синтезу)? РЭНСИТ, 2021, 13(1):59-70. DOI: 10.17725/rensit.2021.13.059
  V.I. Vysotskii, M.V.Vysotskyy, M.V.Maksyuta.. Channeling  of charged particles near a surface of semiconductors and conducting crystals. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2021, Vol. 15, No. 2, pp. 302-308.
  V.I. Vysotskii, M.V.Vysotskyy . Feature of nondissipative channeling of moving particles near a conductor with current. Journal of experimental and theoretical physics. 2021, vol.132, No.1, pp. 18-26.
  В.И.Высоцкий, Корнилова А.А. Проблема и методы создания управляемых источников мессбауэровского и рентгеновского излучения, Москва, REGNUM,2021, 105 c.

  V.I.Vysotskii, Kornilova A.A., M.V.Vysotskyy. Features and mechanisms of the generation of neutrons and other particles in first laser fusion experiments. Journal of Experimental and Theoretical Physics, volume 131(2020), pp. 566–571.

  Kornilova, V.I. Vysotskii, M.V.Vysotskyy, S.N. Gaydamaka, A.I. Panchishin, A.A. Bolotokov. The Possible Role of LENR in Dentistry. Journal Condensed Matter Nucl. Scienсe, v.33 (2020), pp.333-339

  V.I.Vysotskii, A.A.Kornilova, S.N.Gaydamaka, A.A.Novakova D.S.Novikov, .V.Vysotskyy, V.V.Avdonin. Creation of Fe isotopes in natural geology crusts as the result of self-controlled global biostimulated LENR in oceans and seas. Journal Condensed Matter Nucl. Scienсe, v.33 (2020), pp. 323-332.

  V.I. Vysotskii, M.V.Vysotskyy. Application of Correlated wave Packets for Stimulation of LENR in Remote Targets). Journal Condensed Matter Nucl. Scienсe, v.33 (2020), pp.305-313

  V.I. Vysotskii, M.V.Vysotskyy, A.A. Kornilova, T.B. Krit, S.N. Gaydamaka, P.L. Hagelstein. Distant Behind-screen Action of Undamped Temperature Waves. Journal Condensed Matter Nucl. Scienсe, v.33 (2020), pp. 296-304.

  Vysotskii V.I., Vysotskyy M.V. Universal mechanism of LENR in physical and biological
  systems on the base of coherent correlated states of interacting particles.
  Book. Cold Fusion. Advances in Condensed Matter Nuclear Science,
  Edited by Jean-Paul Biberian, Elsevier, 2020. CHAPTER 17 pp. 333-370

  V. I. Vysotskii, A. A. Kornilova. Effective LENR and transmutation of stable and radioactive isotopes in growing biological systems.
  Book. Cold Fusion. Advances in Condensed Matter Nuclear Science,
  Edited by Jean-Paul Biberian, Elsevier, 2020. CHAPTER 12., pp. 205-232.

  Vysotskii V.I., Vysotskyy M.V. Features of spatial localization of particles in coherent channeling mode and the mechanism of formation of controlled directional radiation. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2020, Vol. 14, No. 2, pp. 382-388

  A. Kornilova, V. I. Vysotskii, T. Krit, M.V.Vysotskyy, S. N. Gaydamaka. Study of the Influence of Remote Undamped Temperature Waves on Nuclear Fusion. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2020, Vol. 14, No. 1, pp. 117–123.

  N. V. Maksyuta, V. I. Vysotskii, S. V. Efimenko, Y. A. Slinchenko. Electron Radiation during Planar Channeling in Crystals with the CsCl Structure. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2019, Vol. 13, No. 6, pp. 1296–1301

  Vysotskii V.I., Vysotskyy M.V. Features of the Propagation, Evolution, and Remote Collapse of a Correlated Wave Packet. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2019, Vol. 13, No. 6, pp. 1116–1121

  Kornilova, V. I. Vysotskii, S. N. Gaydamaka , M. A. Gladchenko. Nuclear Reactions in Living Nature: The Possibility of Biological Processing and Deactivation of Liquid Radioactive Waste. Physical and Mathematical Modeling of Earth and Environment Processes (2018, Karev V., Klimov D., Pokazeev K. (eds)).
  Springer Proceedings in Earth and Environmental Sciences. Springer, book series (SPEES), 25 March 2019, pp 213-230

  Vysotskii V.I., Vysotskyy M.V., Bartalucci S. Using the Method of Coherent Correlated States for Production of Nuclear Interaction of Slow Particles with Crystals and Molecules. Journal Condensed Matter Nucl. Scienсe, v. 29 (2019), 358-367.

  V.I.Vysotskii, A.A.Kornilova, T.Krit, S.Gaydamaka. Generation and detection of undamped temperature waves at large distance in LENR related experiments. Journal of Condensed Matter Nucl. Sci. v. 29 (2019), 368-375

  V.I.Vysotskii, M.V.Vysotskyy. Effective LENR in Weakly Ionized Gas Under the Action of Optimal Pulsed Magnetic Fields and Lightning (Theory and Experiments). Journal Condensed Matter Nucl. Scienсe, v. 29 (2019) ,348-357

  Bartalucci S., Vysotskii V.I., Vysotskyy M.V. Correlated states and nuclear reactions: An experimental test with low energy beams. Phys.Rev.Accel. and Beams, v.22, #5, 054503, (2019).

  Vysotskii V.I., Vysotskyy M.V. Features of correlated states and a mechanism of self-similar selection of nuclear reaction channels involving low-energy charged particles. Journal of Experimental and Theor. Phys., v.128, 856–864 (2019).

  Vladimir I. Vysotskii, Nikolai V. Maksyuta, Sultan B. Dobagov. On formation of exotic particles at channeling of low energy antiprotons in LiH crystals. Hyperfine Interactions (2019) 240:28б pp.1-7

  N..V. Maksyuta, V. I. Vysotskii, S. V. Efimenko,A. S. Sabirov, G. M. Filippov, I. V. Lysova. Evolution of the Spatial Distribution of Hydrogen Atoms Channeling along Non-Chiral Carbon Nanotubes. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2019, Vol. 13, No. 3, pp. 542–547

  Vysotskii V.I., Vysotskyy M.V., Bartalucci S. Features of the formation of correlated coherent states and nuclear fusion induced by the interaction of slow particles with crystals and free molecules, Journal of Experimental and Theor. Phys. v. 127, 479-490 (2018).

  N.V. Maksyuta, V.I. Vysotskii, S.V. Efimenko, Y.A. Slinchenko. Investigation of channeling and radiation of relativistic electrons in charged planes of the crystals with zinc blende structure. Journal of Instrumentation (JINST), 2018, v. 13, C0401

  V.I.Vysotskii, M.V.Vysotskyy. Effect of collective electron channeling and features of quasicharacteristic radiation in the Bragg diffraction mode. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, V.12, #4, 819-824, 2018

  V.I.Vysotskii,M.V.Vysotskyy. Formation of correlated states and tunneling for a low energy and controlled pulsed action on particles, Journal of Experimental and Theoretical Physics, v.125, No.2, 195-209, (2017)

  M.V. Maksyuta, V.I. Vysotskii, S.V. Efimenko, V.V. Syshchenko, A.I. Tarnovsky, A.Yu. Isupov. The investigation of quasi-characteristic radiation of electrons channeled along the charged axes in the crystals of zinc blende, Journal of Physics: Conf. Series, v. 875, 8, (2017).

  M.V. Maksyuta, V.I. Vysotskii, Ye.V. Martysh. The investigation of a wake potential of non-relativistic protons in the case of their orientation motion in solid-state plasma of ionic crystals, Problems of atomic science and technology. V.23, 28-31 (2017).

  V.I.Vysotskii, A.A.Kornilova, A.O. Vasilenko, T.B.Krit, M.V.Vysotskyy. On the long-range detection and study of undamped directed temperature waves generated during the interaction between a cavitating water jet and targets. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, v. 11(4), 749-755 (2017)

  V.I.Vysotskii, A.A.Kornilova, A.O. Vasilenko, T.B.Krit, M.V.Vysotskyy. The prediction, observation and study of long-distant undamped thermal waves generated in pulse radiative processe, Nuclear Instruments and Methods in Physics Research B, V. 402, 251–255, (2017).

  N.V. Maksyuta, V.I.Vysotskii, S.B. Dabagov. Protonium atoms generation at antiprotons channeling in a LiH crystal, Nuclear Instruments and Methods in Physics Research B, V. 402, 232–235, (2017).

  V.I.Vysotskii, M.V.Vysotskyy. Features of Cherenkov radiation at channeling, Nuclear Instruments and Methods in Physics Research B, V. 402, 24–28, (2017).

  N.V. Maksyuta, V.I. Vysotskii, S.V. Efimenko. The investigation of the orientational and radiative processes in the main charged axes of ionic crystals with Cs-Cl-type structure.
  In the book: Channeling 2014: Charged & Neutral Particles Channeling Phenomena, Dabagov SB & Strikhanov MN, Eds, MEPhI Publ., 2015, pp.118-129.

  V.I.Vysotskii, M.V.Vysotskyy. Unknown preconditions and abnormal features of Cerenkov radiation in realistic media.
  In the book: Channeling 2014: Charged & Neutral Particles Channeling Phenomena, Dabagov SB & Strikhanov MN, Eds, MEPhI Publ., 2015, pp.237-243.

  V.I.Vysotskii, A.A.Kornilova, A.O.Vasilenko, Yu.V.Korneeva, T.B.Krit. Abnormal optical, thermal and X-ray phenomena at motion of fast liquid stream through thin channels.
  In the book: Channeling 2014: Charged & Neutral Particles Channeling Phenomena, Dabagov SB & Strikhanov MN, Eds, MEPhI Publ., 2015, pp.491-502.

  A.A.Kornilova, V.I.Vysotskii. Method for purifying water of radionuclides, Int.patent WO 2015156698 A1, 15 oct 2015.

  V.I.Vysotskii, M.V.Vysotskyy. The formation of correlated states and optimization of the tunnel effect for low-energy particles under nonmonochromatic and pulsed action on a potential barrier, Journal of Experimental and Theoretical Physics, V. 121, No. 4, 559–571 (2015).

  V.I. Vysotskii, A.O. Vasilenko, V.B. Vassilenko, M.V.Vysotskyy. Nonequilibrium thermal effects during pulsed action on conducting medium, Inorganic Materials: Applied Research, Vol. 6, No. 3, pp. 199–204, (2015).

  N.V. Maksyuta, V.I. Vysotskii, S.V. Efimenko. Channeling and quasi-characteristic radiation of charged particles in charged axes of CsCl-type ionic crystals, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, v.355, 90-93, (2015).

  M.V. Maksyuta, V.I.Vysotskii, Ye.V.Martysh. Peculiarities of a wake potential formation due to a polarization interaction of channeling electron with ionic crystal solid state plasma, Problems of Atomic Science and Technology, series Plasma Physics, №1,  33-36, (2015).

  V.I.Vysotskii, M. V.Vysotskyy. Coherent correlated states of interacting particles – the possible key to paradoxes and features of LENR, Current Science, v.108, No.4, 30-36, (2015).

  V.I.Vysotskii, A.A.Kornilova, A.O.Vasilenko. Observation and investigation of X-ray and thermal effects at cavitation, Current Science, v.108, No.4, 114-119, (2015).

  V.I.Vysotskii, A.A.Kornilova. Microbial Transmutation of Cs-137 and LENR in growing biological systems, Current Science, v.108, No.4, 142-146, (2015).

  V.I.Vysotskii, M. V.Vysotskyy. Formation of correlated states and optimization of nuclear reactions for low-energy particles at nonresonant low-frequency modulation of a potential well, Journal of Experimental and Theoretical Physics, Vol. 120, No. 2, pp. 246–256, (2015)..

  V.I.Vysotskii, A.A.Kornilova, A.O.Vasilenko, V.I.Tomak. Detection and investigation of undamped temperature waves excitation under water jet cavitation, Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, v. 8(6), 1186-1192 (2014)

  V.I.Vysotskii, M. V.Vysotskyy, S.V.Adamenko. Application of Correlated States of Interacting Particles in Nonstationary and Periodical Modulated LENR Systems, Journal Condensed Matter Nucl. Scienсe, v.13, 624–636, (2014).

  V.I.Vysotskii, M. V.Vysotskyy, M.V.Maksyuta. Selective Interaction of Moving Neutral Particles with Modulated Surface and the Mechanism of Controlled Surface Nanofabrication, Journal Surface Science and Nanotechnology, V.12, 387-390, (2014).

  V. I. Vysotskii, A.A. Kornilova, V.S.Chernysh. Features and Giant Acceleration of “Warm” Nuclear Fusion at Interaction of Moving Molecular Ions (D-…-D)+ with the Surface of a Target, Journal of Condensed Matter Nuclear Science, v. 13, 603–607, (2014).

  V. I. Vysotskii, A.A.Kornilova, N.A.Gavrilova, A.M.Lotonov. Stimulated (B11p) LENR and Emission of Nuclear Particles in Hydroborates in the Region of Phase Transfer Point, Journal Condensed Matter Nucl. Scienсe, v.13, 608–614, (2014).

  V. I. Vysotskii. On Problems of Widom–Larsen Theory Applicability to Analysis and Explanation of Rossi Experiments, Journal Condensed Matter Nucl. Scienсe, v. 13, 615–623, (2014).

  V.I.Vysotskii, A.O.Vasilenko, V.B.Vassilenko. Generation and propagation of undamped temperature waves under pulse action on a target surface, Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, v. 8(2), 367-373 (2014)

  V.I.Vysotskii, M. V.Vysotskyy. Correlated states and transparency of a barrier for low-energy particles at monotonic deformation of a potential well with dissipation and a stochastic force, Journal of Experimental and Theoretical Physics, V. 118, No. 4, 534–549, (2014).

  V.I.Vysotskii, M. V.Vysotskyy. Application of coherent correlated states of interacting particles in non-stationary controlled LENR, Infinite energy, November/December, ISSUE 112, 71-76, (2013).

  Vasylenko A.O., Vysotskii V.I., Vassilenko V.B. Heat transfer equation with delay for media with thermal memory, International Journal of Sciences: Basic and Applied Research (IJSBAR). V. 12 No. 1,. 160-166 (2013).

  V.I.Vysotskii, M. V.Vysotskyy. Coherent correlated states and low-energy nuclear reactions in non stationary systems. European Physical Journal. A, V.49, issue 8: 99, p.1-12 (2013).

  V.I.Vysotskii, M. V.Vysotskyy, S. Bartalucci. Nuclear fusion in ordered crystal targets bombarded by monochromatic beams of light or middle-mass isotopes, Annals of Nuclear energy, v.62, p.613-617 (2013).

  V.I.Vysotskii, S.V.Adamenko, M. V.Vysotskyy. Acceleration of low energy nuclear reactions by formation of correlated states of interacting particles in dynamical systems, Annals of Nuclear energy, v.62, p.618-625, (2013).

  V.I.Vysotskii, A.A.Kornilova. Transmutation of stable isotopes and deactivation of radioactive waste in growing biological systems, Annals of Nuclear energy, v.62, p.626-633, (2013).

  V.I.Vysotskii, A.A.Kornilova. Сontrolled spontaneous decay of Mossbauer nuclei (theory and experiments).
  In the book: MOSSBAUER SPECTROSCOPY: APPLICATIONS IN CHEMISTRY,
  BIOLOGY, AND NANOTECHNOLOGY, Editors: Virender K. Sharma, Gostar Klingelhofer, and Tetsuaki Nishida, (Tentative) Publication Date: April 2013, Projected Page Count: 450 pages, John Wiley and Sons, Inc., Chapter 14, Сontrolled spontaneous decay of Mossbauer nuclei (theory and experiments), p. 292-315.

  V.I.Vysotskii. The problem of creation a universal theory of LENR, Infinite Energy, Issue 108, v.18, March/April p. 30-35, (2013).

  V.I.Vysotskii, M. V.Vysotskyy. Conditions for Generating X-Ray Cherenkov Radiation during the Charge Motion in Actual Mediums, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, V. 7, No. 1, 51–55, (2013).

  A.A. Kornilova, V.I.Vysotskii, N.N.Sysoev, A.V.Desiatov. Method for producing x-ray radiation and a device for carrying out said method, Intern. Patent, WO 2010019068 A1, 27.06.2012.

  V.I.Vysotskii, S.V.Adamenko, M. V.Vysotskyy. The formation of correlated states and the increase in barrier transparency at a low particle energy in nonstationary systems with damping and fluctuations, Journal of Experimental and Theoretical Physics, V. 115, No. 4, 551–566, (2012).

  V.I.Vysotskii. Critique of the Widom-Larsen Theory, Infinite Energy, Issue 105 • September/October p. 37-41, (2012).

  V.I.Vysotskii, A.A.Kornilova. Nuclear fusion and transmutation of isotopes in biological systems, Monograph, (“Sakumei-sha” Publishier), 2012, Japan, 120 с.

  V. I. Vysotskii, S. V. Adamenko. Low energy subbarrier correlated nuclear fusion in dynamical systems, Journal of Condensed Matter Nuclear Science, v.8, p.91-104, (2012).

  S.V.Adamenko, M. V.Vysotskyy. S.V.Adamenko. Formation and application of correlated states in non-stationary systems at low energy of interacting particles, Journal of Experimental and Theoretical Physics, V. 114, No. 2, 243–252, (2012).

  V.I.Vysotskii, S.V.Adamenko, M. V.Vysotskyy. Subbarier interaction of channeling particles under the self-similar excitation correlated states in periodically deformed crystal, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , v.6,#2, 369-374, (2012).

  V.I.Vysotskii, A.A. Kornilova. Low-energy Nuclear Reactions and Transmutation of Stable and Radioactive Isotopes in Growing Biological Systems, Journal Condensed Matter Nucl. Scienсe, v.4, p. 146-160, (2011).

  V.I.Vysotskii, M. V.Vysotskyy. Anomalous in orientation interaction of slow neutrons with nuclei and the problem on neutron molecule existence, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , v.5,#2, 330-334, (2011).

  V.I.Vysotskii, N.V.Maksyuta, G.P.Golovach. Frequency-Angular Characteristics of Quasi-Characteristic radiation at relativistic electrons plane channeling in crystals, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , v.5,#2, 380-334, (2011).

  V.I.Vysotskii, A.Yu. Karlosh.Features of selective transport and ions channeling in water environment in channels of biological membranes, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #12, 64-71, (2010).

  A.A.Kornilova, V.I.Vysotskii, N.N.Sysoev, N.K.Litvin, V.I.Tomak. Generation of intencse X-rays during ejection of a fast water jet from a metal channel to atmosphere, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #2, 53-63, (2010).

  V. I. Vysotskii, M. V. Vysotskyy, N.V.Maksyuta. Features of the resonance interaction of moving neutral atoms and clusters with the superlattice surface, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #8, 95-102, (2010).

  V. I. Vysotskii, M. V. Vysotskyy. Abnormal features of neutron-nucleus low energy interaction and mechanism of inhibition of neutron-induced reactions, European Physical Journal, v. A44, 279-285 (2010).

  S. V. Adamenko, V. I. Vysotskii. Surface Channeling of Magnetic-Charged Particles on Multilayer Surface, Intern. Journal of Modern Physics, v. A25, 118-127, (2010).

  S. V. Adamenko, V. I. Vysotskii. Surface Channeling of Magnetic-Charged Particles on Multilayer Surface, In the book “Charged and Neutral Particles Channeling Phenomena – Channeling 2008”, Proceedings of the 51st Workshop of the INFN Eloisatron Project, S.B. Dabagov and L. Palumbo, Eds., World Scientific, 2010, pp. 258-267

  S. V. Adamenko, V. I. Vysotskii, M. V. Vysotskyy. The Formation and Usage of Coherent Correlated Charged Particles States in the Physics of Channeling in Crystals, In the book “Charged and Neutral Particles Channeling Phenomena – Channeling 2008”, Proceedings of the 51st Workshop of the INFN Eloisatron Project, S.B. Dabagov and L. Palumbo, Eds., World Scientific, 2010, pp. 248-257

  M. Vysotskyy, V. Vysotskii. Parametric Channeling and Collapse of Charged Particles Beams in Crystals, In the book “Charged and Neutral Particles Channeling Phenomena – Channeling 2008”, Proceedings of the 51st Workshop of the INFN Eloisatron Project, S.B. Dabagov and L. Palumbo, Eds., World Scientific, 2010, pp. 222-247.

  Kornilova, V. I. Vysotskii, N. N. Sysoev, N. K. Litvin, V. L. Tomak, A. A. Barzov. Shock-Cavitational Mechanism of X-Ray Generation During Fast Water Stream Cavitation, Moscow University Physics Bulletin, Vol. 65, No. 1, pp. 46–50, (2010).

  V. I. Vysotskii. S. V. Adamenko. Correlated states of interacting particles and problems of the coulomb barrier transparency at low energies in nonstationary systems, Technical Physics, V. 55, No. 5, 613–621, (2010).

  V.I.Vysotskii, S.V.Adamenko, M. V.Vysotskyy. The formation and usage of coherent correlated charged particles states in the physics of channeling in crystals, Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, v.4, 248–257, (2010).

  V.I.Vysotskii, M. V.Vysotskyy. Features of the orientational motion of relativistic and slow neutrons and particles with an anomalous moment in crystals, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , v.4, 100-104, (2010).

  V.I.Vysotskii, M. V.Vysotskyy. Peculiarities of induced radiation and controlled dechanneling of relativistic particles in crystals at the Vavilov–Cherenkov extreme condition, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , v.4, 162-169, (2010).

  V.I. Vysotskii, A.A.Kornilova. Physical Model and Direct Experimental Observation of Water Memory and Biophysical Activity of Magnetic-Activated Water, Journal of Scientific Exploration, Vol. 23, No. 4, 500–505, (2009).

  V.I. Vysotskii, A.A.Kornilova. Nuclear Transmutation of Isotopes in Biological Systems (History, Models, Experiments, Perspectives), Journal of Scientific Exploration, Vol. 23, No. 4, pp. 496–500, (2009).

  V.I.Vysotskii, N.I.Serjant. Superabsorption mechanism and effective nuclear synthesis in the interaction of monochromatic ion beams with the surface of condensed targets, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #11, 89-94, (2009).

  V.I. Vysotskii, A.A.Kornilova. Nuclear transmutation of stable and radioactive isotopes in biological systems, Book, Pentagon Press, India, 2010,187 p.

  V.I.Vysotskii, A.B.Tashyrev, A.A.Kornilova, Experimental observation and modeling of Cs-137 Isotope deactivation and stable isotopes transmutation in biological cells, Infinite Energy, V.15, #85, p.25-29, (2009).

  V.I.Vysotskii, A.A.Kornilova, I.V.Smirnov. Applied Biophysics of Activated water (The physical Properties, Biological Effects and Medical applications of MRET Activated water), Book, World Scientific Publ., 2009, 317 p.

  Kornilova, V. I. Vysotskii, N. N. Sysoev, A.V.Desiatov. Generation of X-ray radiation during bubble cavitation of a fast jet of liquid in dielectric channels, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #4, 17-26, (2009).

  V.I.Vysotskii. Quantum mechanics and its application in applied physics, Book, Ukraine, 2008, 358p.

  S.V.Adamenko V.I.Vysotskii, Experimental observation and analysis of action of light magnetic monopoles on multilayer surfaces, Annales de la Fondation Louis de Broglie, V. 33, # 1, p. 13-29, (2008).

  V.I.Vysotskii, A.B.Tashyrev, A.A.Kornilova, Experimental observation and modellingof Cs-137 Isotope deactivation and stable isotopes transmutation in biological cells,
  Book: Low Energy Nuclear reactions Sourcebook, Edited by Jan Marwan, Steven B.Krivit, ACS Symposium Series 998, Washington, DC, p. 295-303, 2008.

  V.I.Vysotskii, M. V.Vysotskyy. Parametric channeling and collaps of beams with an internal structure in crystals. 2. Parametric processes in the channeling of atomic ions, nuclei and electrons in crystall channels, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #3, 101-112, (2008).

  V.I.Vysotskii, M. V.Vysotskyy, N.V.Maksyuta. Parametric channeling and collaps of beams with an internal structure in crystals. 1. Features of parametric channeling of molecular ions in crystalline channels, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #3, 92-100, (2008).

  S.V.Adamenko, V.I.Vysotskii. Stability of Electron-Nucleus form of matter and methods of controlled collapse, Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 415-541

  S.V.Adamenko, V.I.Vysotskii, A.S.Adamenko. Substantiation and discussion of synthesis and registration of superheavy nuclei, Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 404-412

  S.V.Adamenko, V.I.Vysotskii. Anomalies of the spatial distribution of exreinsic elements in the accumulating screen and the synthesis of superheavy nuclei, Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 401-404

  S.V.Adamenko, A.S.Adamenko V.I.Vysotskii. Induced decay of superheavy nuckei with the help of a beam of Oxigen ions and upon the action of laser emission, Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 387-393.

  V.I.Vysotskii, S.S. Ponomarev. Identification of X-Ray and Auger peaks of superheavy elements. Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 372-376

  S.V.Adamenko, V.I.Vysotskii, M.I.Gorodyskii, A.S.Adamenko. Registration of stable transuranium isotopes with standard mass-spectrometry procedure, Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 365-372

  S.V.Adamenko, V.I.Vysotskii, A.S.Adamenko. Synthesis of superheavy nuclei and conditions for their identification, Book: Controlled Nucleosynthesis. Breakthroughs in Experiment and Theory, (Editors S.V.Adamenko, F.Selleri, A.van der Merwe), Series: Fundamental theories in Physics, v.156, Springer, 2007; pp. 363-365

  V.I.Vysotskii, M. V.Vysotskyy. Mechanism of acceleration of ions and magnetic particles during passage through an optically excited (inverted) medium, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #4, 97-102, (2007).

  V.I.Vysotskii, M. V.Vysotskyy. The Doppler effect under the Vavilov-Cerenkov extreme condition and the emission limit for channeling, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , v.1, 253-258, (2007).

  A.A.Kornilova, V.I.Vysotskii, A.I. Koldamasov, Hyun Ik Yang, Denis B. McConnell, Generation of intense directional radiation at a rapid motion of a liquid stream through narrow dielectric channels, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , v.1, 253-258, (2007).

  M. V.Vysotskyy. V.I.Vysotskii. The Doppler effect in a medium for radiation sources in motion at extreme conditions, Nuclear Instruments and Methods in Physics Research B, v. 252, 75–80, (2006).

  V.I.Vysotskii, M. V.Vysotskyy, N.V.Maksyuta. Active optics of particle beams in coherent channeling mode. 2. Effect of coherence effects on the motion and quasicharacteristic radiation of channeled particles, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #3, 98-107, (2006).

  V.I.Vysotskii, M. V.Vysotskyy. Active optics of particle beams in the coherent channeling regime. 1. Conditions for realization of the coherent channeling regime, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #3, 93-97, (2006).

  S.V.Adamenko, V.I.Vysotskii. Experimental detection and simulation of the orientational motion of hypothetical magnetically charged particles on a multilayer surface. Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques , #3, 84-92, (2006).

  S.V.Adamenko, V.I.Vysotskii. Neutronization and protonization of nuclei – two possible ways of the evolution of astrophysical objects and the laboratory electron-nucleus collapse. Foundations of Physics Letters, v. 19, No. 1, p. 21-36, (2006).

  S. V. Adamenko, V. I. Vysotskii. Laboratory collapse of electron-nuclear plasma and full-range nucleosynthesis of stable usual and superheavy nuclei. Frontiers of Nonlinear Physics, Russia, 511-516, (2005).

  V. I. Vysotskii, A. A. Kornilova, Yu. D. Perfiliev, L. A. Kulikov, A. A. Opalenko. Controlled spontaneous conversion decay of excited nuclei. Frontiers of Nonlinear Physics, Russia, 461-470, (2005).

  V.I.Vysotskii. N.V.Maksyuta. Adaptive channeling of heavy ions in light crystals. Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, #7, 102-106, (2005).

  V.I.Vysotskii, I.Smirnov, A.A.Kornilova. Introduction to the Biophysics of Activated Water. Book: Universal Publishiers, Roca Raton, Florida, USA, 2005, 160 p.

  Adamenko S.V., Vysotskii V.I. Neutronization and protonization of nuclei – two possible ways of the evolution of astrophysical objects and the laboratory electron-nucleus collapse. Foundations of Physics Letters, v. 19, No. 1 (2006), p. 21-36

  V.I.Vysotskii, A.A.Kornilova, L.V.Shcherbakov, V.V.Govorun, The physicochemical mechanism of the effect of water molecules on the structure of DNA, Biomedical tech. and radioelectronics, № 6, 2005., 46-52

  V.I.Vysotskii, A.A.Kornilova, A.O.Pinchuk, L.V.Shcherbakov. Features of non-stationary DNA self-repair in the presence of ionizing radiation, Biomedical tech. and radioelectronics, № 1-2, 2005, .85-99

  Vysotskii, V. I., A. A. Kornilova, Yu. D. Perfiliev L. A. Kulikov. The theory and experimental investigation of controlled spontaneous conversion nuclear decay of radioactive isotopes //10th Int. Conference on Condensed Matter Nuclear Science, USA, Boston (2003), Proceedings, 2005, p. 929-936, World Scientific, Singapore

  Vysotskii V.I., Kornilova A.A. Physical foundation of long-time water memory, Moscow University Physics Bulletin, v.59, no.,3.58-62 (2004).

  Adamenko S.V., Vysotskii V.I. Problem of Coulomb collapse of electron-nucleus system in condensed targets // Surface, 2005, #4, p. 30-38

  Vysotskii V. I., Maksuyta N.V. Generation of a short-wave quasi-characteristic radiation of channeked electrons in the conditions of three-frequency parametric interaction with pseudophoton fields, Surface, 2005, #4, p. 77-82

  Vysotskii V. I., Kornilova A.A., Scherbakov V.L. Influence of longitudinal and transversal non ionizing fields on biological objects in a near zone of radiation source, Biomedical Technology and Radio-electronics, № 1-2, 2004, p. 57-60

  Adamenko S.V., Vysotskii V.I. Mechanism of synthesis of superheavy nuclei via the process of controlled electron-nuclear collapse, Foundations of Physics Letters, v. 17, No. 3 (2004), p. 203-233.

  Adamenko S.V., Adamenko A.S., Vysotskii V.I. Full-range nucleosynthesis in the laboratory – Stable Syperheavy Elemernts: Experimental results and Theoretical Description, Infinite Energy, v.9, isuue 54, 2004, p. 23-30

  Adamenko S.V., Vysotskii V.I. Evolution of annular self-controlled electron-nucleus collapse in condensed targets, Foundations of Physics, v. 34, No. 11 (2004), p. 1801-1831

  Opalenko A.A., Vysotskii V.I., Kornilova A.A. On the phenomenon of the oscillating decay of the isomer Te-125m, Letters to Journal of Experimental and Theoretical Physics, v. 79, 254-256, (2004).

  Opalenko A.A., Vysotskii V.I., Kornilova A.A. On the Effect of a Resonant Mossbauer Filter on the Decay of the Te-125m Isomer. Moscow University Physics Bulletin, v.59, no.,1 73-78 (2004).

  Vysotskii V.I, Kornilova A.A. Book. Nuclear Fusion and transmutation of isotopes in biological systems, Moscow, MIR Publishing House, 2003, 302 p.

  Vysotskii V. I., Pinchuk A. O., Kornilova A.A., Scherbakov V.L.Possible mechanisms of Non-thermal influence of non-ionizing radiation on stability of biological systems, Biomedical Technology and Radio-electronics, № 10, 2003, p. 50-56

  Vysotskii V. I., Pinchuk A. O., Kornilova A.A., Samoylenko I.I. The problem, molecular mechanism and time-dependent dynamics of controlled DNA self-repairing, Biophysical Journal, v. 82, #1, Part 2 of 2, p.124a, 2002

  Vysotskii V. I.,Samoylenko I.I., Kornilova A.A., Zykov G.A.. Experimental observation and study of controlled transmutation of intermediate mass isotopes in growing biological cultures // Italian Physical Society, Conference Proceedings, Volume 70, Proceedings of the 8th International Conference on Cold Fusion (edited by F. Scaramuzzi); Lerici (La Spezia), Italy 21-26 May, 2000; p.135-140

  Vysotskii V. I., Pinchuk A. O., Kornilova A.A., Samoylenko I.I. // Molecular mechanisms and time-dependent dynamics of hormesis, antagonism and radioprotective effects at combined ionizing irradiation of biological systems, Radiation Physics and Chemistry, v.65, n. 4-5, 2002, p.487-493

  Pinchuk A.O., Vysotskii V.I. Long-range intermolecular interaction between broken DNA fragments, Physical Rev E, V. 63, 2001, N. 3, p.31904-31910V.

  Vysotskii V.I., Kornilova A. A. Sorokin, A.A., Komisarova V. A. Reiman , S. I., Riasnii G.K. Direct observation and experimental investigation of controlled gamma-decay of Mossbauer radioactive isotopes by the method of delayed gamma-gamma coincidence, Laser Physics, v.11, N. 3, 2001, p. 442-447

  Vysotskii V. I., Pinchuk A. O., Kornilova A.A., Samoylenko I.I. Modeling and time-dependent dynamics of processes of stimulated depolymerisation, autorepairing, degradation and radiation curing of DNA macromolecules and biopolymers at separated and combined action of ionizing irradiation, Nuclear Instruments and Methods in Physics Research B 185 (2001) p.108-115

  V.I.Vysotskii, A. A.Kornilova, A. A. Sorokin, V. A. Komisarova, G.K. Ryasny The theory and direct observation of controlled (suppressed) spontaneous nuclear gamma-decay,Problems of Atomic Scence and Technology, 2001, n.6(1), p. 192-196

  Vysotskii V.I., S.V. Adamenko, V.A. Stratienko, N.G. Tolmachev. Creating and using of superdense micro-beams of relativistic electrons, Nuclear Instruments and Methods in Physics Research, Section A: Accelerators Spectrometers, Detectors and Associated Equipment, V. 455, Issue: 1, (2000), p. 123-127

  Vysotskii V.I., Pinchuk A.O. Pecularities of long-range interaction between the nucleotides after DNA demage, Bioelectrochemistry and bioenergetics, v.49 (1999) 329-331

  Vysotskii V.I., Pinchuk A.O., Kornilova A.A., Samoylenko I.I. The dynamics of radiation-stimulated hormesis and processes of DNA self-reparation at the combined action of ionizing irradiation on biological systems, Nuclear and Radiation Security, v.2, n. 2 (1999) p. 66-80 (In Russian) т.2, в.2, 1999, с. 66-80

  Vysotskii V.I., Lapshin Yu. The problem of planar and axial channeling of neutrons in perfect oriented nonmagnetic crystals, Physica B., v. 267-268 (1999) 308-312

  Vysotskii V.I. Is control of the spontaneous decay of long-lived state of the isotope Sn119m possible? Journal of Experimental and Theoretical Physics Letters, v. 70, n. 9 (1999) 645-646

  Vysotskii V. I., Pinchuk A. O., Kornilova A.A., Samoylenko I.I. The time-dependent dynamics and modeling of processes of depolymerisation and autorepairing of DNA macromolecules at separate and combined action of ionizing radiation, Spectroscopy of Biological Molecules: New Directions, Kluwer Academic Publisher, p. 401-402, (1999)

  Pinchuk A. O., Vysotskii V. I., Zhmudskii A. A. The method of quick restoration of dielectric permeability spectra on the base of the analysis of their absorption spectra”, Spectroscopy of Biological Molecules: New Directions, Kluwer Academic Publisher, p. 403-404, (1999)

  Vysotskii V. I., Pinchuk A. O. Analysis of long-range interaction of end-pairs of nucleotides in the region of DNA’s double-strand breaks, Spectroscopy of Biological Molecules: New Directions, Kluwer Academic Publisher, p. 405-406, (1999)

  Vysotskii V.I. The problem of controlled spontaneous nuclear gamma-decay: theory of controlled excited and radioactive nuclei gamma-decay, Physical Review C, v. 58 (1998) 337-350

  Rusov V.D., Vysotskii V.I., Zelentsova T.N. Neutrino diagnostics of insidereactor processes and fuelcontaioning bulks, Journal of Nuclear and Radiation Safety, v.1 (1998) 66-96

  Vysotskii V.I., Bugrov V.P., Kornilova A.A., Reiman S.I. The experimental realization and investigation of the phenomenon of controlling the spontaneous nuclear gamma-decay and the life-time of gamma-excited nuclei , International Conference on the Physics of Nuclear Science and Technology, October 5-8, 1998, New York, Proceedings, v.2, p.1739-1743

  Vysotskii V.I. On the effectiveness of nuclei excitation by nonthermal laser produced subrelativistic oscillating electrons during action of short powerful polarized optical laser pulse on perfect crystal, International Conference on the Physics of Nuclear Science and Technology, October 5-8, 1998, New York, Proceedings, v.2, p.1744-1747

  Vysotskii V.I. The method and the theory of controlling the spontaneous nuclear gamma-decay and life-time of radioactive and excited nuclei, International Conference on the Physics of Nuclear Science and Technology, October 5-8, 1998, New York, Proceedings, v.2, p.1748-1754

  Vysotskii V.V., Kuz’min R.N, Bugrov V.P. Sub-threshold inversionless quasistationary gamma amplification on the basis of Mossbauer Fe57 nuclei and spin-crossover systems in non-conductive complex compounds with Co57, Hyperfine Interactions, 1997, v.107, p.213-216

  Vysotskii V.I., Bugrov V.P Kornilova A.A., Kuz’min R.N, Reiman S.I. The problem of gamma-laser and controlling of Mossbauer nuclei decay (theory and practica), Hyperfine Interactions, 1997, v.107, p.277-282

  Vysotskii V.I., Maksyuta N.V., Kuzmin R.N. Application of the family of isospecral potentials for the analysis of interaction in case of planar channeling of charged particles in crystals, Surface, 1997, #2, p.107-110.

  Vysotskii V.I., Maksyuta N.V. About the applicability of Doppler equation in the limit of relativistic transformation of quasicharacteristic radiation frequency during channeling in crystals, Surface, 1997, #3, p.97-100.

  Vysotskii V.I., Maksyuta N.V. Surface channeling of atoms due to Van der Vaals forces, Surface, 1997, #6, p.11-13

  Vysotskii V.I., Maksyuta N.V., Bugrov V.P., Kornilova A.A. Channeled motion regime and the peculiarities of interaction with nuclei of the fast ionization electrons produced in crystal matrix under the irradiation by powerful laser pulse, Surface, 1997, #6, p.20-29.

  Vysotskii V.I., Bugrov V.P., Kornilova A.A. About the effectiveness of excitation of highly activa nuclear systems at laser pulse heating of the gamma-resonant medium, Plasma Physics, v.23 (1997) 1127-1137.

  Vysotskii V.I., Kornilova A.A., Samoylenko I.I. The molecular mechanisms of autorepairing of double damages of DNA, Radiation Biology. Radioecology, v. 37 (1997) 494-507

  Vysotskii V.I., Kornilova A.A., Samoylenko I.I. Effect of viscosity properties of intermolecular and intercellular medium on the stability of DNA against radiation. Intern. symposium of ionising radiation ”Protection of the natural environment”, May 1996, Stockholm, Proceedings, v.2, p.478-482.

  Vysotskii V.I., Kornilova A.A., Samoylenko I.I. The problem of radiation demage to DNA. What kinds of double radiation breaks in DNAs are irreversible (quantum-mechanical and electrodynamic approaches)? Intern. symposium of ionising radiation ”Protection of the natural environment”, May 1996, Stockholm, Proceedings, v.2, p.489-494

  Vysotskii V.I., Kornilova A.A., Samoylenko I.I. The problem of radiation demage to DNA. Method for control of antagonism and radioprotective effect in combinet action of hard and soft ionising radiation on DNA. Intern. symposium of ionising radiation ”Protection of the natural environment”, May 1996, Stockholm, Proceedings, v.2, p.483-488

  Vysotskii V.I., Kornilova A.A., Samoylenko I.I. Experimental discovery and investigation of the phenomenon of nuclear transmutation of isotopes in groving biological cultures, Cold Fusion and New Energy Technology,v.2, №10, 1996, p.63-66

  Vysotskii V.I., Kuzmin R.N., Maksuyta N.V. Mechanisms and models of nonthreshold generation of quasimonochromatic gamma-radiation based on systems of anomalous channeling of relativistic charge particles, Laser Physics, 1995, v. 5, ¹ 2, p. 396-400

  Vysotskii V.I., Kuzmin R.N. Inversionless stimulated emission with recoil in a two-temperature quasi-equilibrium gas and in the range of superhard gamma-radiation, Laser Physics, 1995, v. 5, #2, p. 301-306

  Vysotskii V.I., Maksyuta N.V., Kuzmin R.N. About the possibility of realization of pozitron-like regime of electrons channeling at the transition to high-index electroneutral planes in ionic crystals, Surface, 1995, #4, p. 108-110.

  Vysotskii V.I., Maksyuta N.V., Kuzmin R.N. Above-surface channeling and quasicharacteristic radiation of protons and positrons in the vicinity of conducting or magnetic crystals, Surface, 1995, #4, p.111-113

  Vysotskii V.I., Maksyuta N.V. Application of finite zone potential methods to the problems of charged particles channeling in crystals, Surface, 1995, #12, p.10-13.

  Vysotskii V.I., Maksyuta N.V., Kuzmin R.N. Anomalous character of channeling of moderately fast protons in hydrogen-containing crystals, Surface, 1995, # 12, p.14-16.

  Vysotskii V.I., Kuzmin R.N., Vorontsov V.I. Sagnac experiment on X-ray radiation, Physics – Uspekhi, v. 37 (1994) 289-302

  Vysotskii V.I., Kuzmin R.N. Nonequilibrium fermi – condensate of deuterium atoms in microcavity of crystals and the problem of nonbarrier cold nuclear fusion realization, Soviet Phys. – Journal Thechnical physics, v. 64, # 7, (1994) 56-63.

  Vysotskii V.I., Maksuyta N.V. On possibility of VUV-Laser development by channeling low-relativistic E-beam in a lithium hidride crystal, “BRAS” (Bulletine of Russian Academy of Science), Physics/Supplement physics of viration, v. 58 (1994) 500-515

  Vysotskii V.I., Kuzmin R.N. Channeling of neutral particles in crystals, Soviet Physics – Uspekhi, v.35 (1992) 725-746

  Vysotskii V.I., Kuzmin R.N. Book: Gamma-lasers, Moscow, Moscow State Univers. Publ. House, 1989, 175 p.

  Vysotskii V.I., Kuzmin R.N., Savenkova N.P. Numerical analysis of neutral particles orientation movement in crystals, Journal of Computational Mathematics and Mathematical Physics, 1988, v.28, n.6, p. 954-955.

  Vysotskii V.I., Kuzmin R.N. Possibility of nonthreshold gamma-ray channeling in crystals // Soviet Phys. – Journal of Experimental and Theoretical Physics, v.67 (1988) 1715-1718

  Vysotskii V.I., Kuzmin R.N., Maksyuta N.V. Anomalous channeling and quasi-characteristic radiation of nonrelativistic electrons in ion crystals, Soviet Phys. -Journal of Experimental and Theoretical Physics, v.66 (1987) 1150-1152

  Vysotskii V.I., Kuzmin R.N., Vorontsov V.I. On the possibility of quantum-deceleration self-modulation of relativistic beam at channeling in crystal, Physics of Solid State (Soviet Phys. – Solid State), 1987, v. 29, n. 12, p. 3638-3343.

  Vysotskii V.I., Kuzmin R.N., Maksyuta N.V. About the possibility of generation of hard spontaneous and induced radiation on the basis of relativistic beam ondulator in controlled dipole field, Letters to Journal of Technical Physics (Soviet Phys – Journal Technical Physics Letters), 1985, v.11, n. 21, p. 1284-1288.

  Vysotskii V.I., Vorontsov V.I., Kuz’min R.N. About a controlling of parameters of spontaneous radiation at transformation of electromagnetic vacuum, Soviet Phys. – Journal Technical Physics Letters, v.10, # 5, 1984, p. 300-303

  Vysotskii V.I., Kuzmin R.N. Induced non-threshold short-wave radiation on the basis of beam quantum ondulator in real zeolites, Physics of Solid State (Soviet Phys. – Solid State), 1983, v. 25, n. 5, p. 1397-1400.

  Vysotskii V.I., Kuzmin R.N. Induced short-wave radiation of charged particles in natural hollow channels // Journal of Technical Physics (Soviet Phys. -J.T.P.), 1983, v.53, n. 7, p. 1254-1260.

  Vysotskii V.I., Kuzmin R.N. On the possibility of optimization of controlled fusion in crystals // Journal of Technical Physics (Soviet Phys. -J.T.P.), v. 53, № 9, 1983, p. 1861-1863

  Vysotskii V.I., Kuzmin R.N. Magnetic channeling of neutrons in non-magnetic crystals, Journal of Experimental and Theoretical Physics (Soviet Phys. – Journal of Experimental and Theoretical Physics), 1982, v.82, n.1, p.177-181.

  Vysotskii V.I., Kuzmin R.N. About the induced radiation fast charged particles in natural hollow crystal channels, Physics of Solid State (Soviet Phys. – Solid State), 1982, v. 24, n. 12, p. 3718-3720.

  Vysotskii V.I., Kuzmin R.N. Reactions of controlled fusion in crystal targets, Letters to Journal of Thechnical Physics, v.7, #16, 1981, p. 981-985

  Vysotskii V.I., Vorontsov V.I., Kuzmin R.N. Coherent excitation of inversion of nuclei by a modulated beam of randomly distributed relativistic electrons, Soviet Phys. – Journal of Experimental and Theoretical Physics, v.51 (1980) 49-51

  Vysotskii V.I., Kuzmin R.N. Focusing and channeling of neutrons and of other uncharged particles in a ferromagnetic by dynamic and static methods, Soviet Phys. – Journal of Experimental and Theoretical Physics, v.52 (1980) 242-250

  Vysotskii V.I. Possibility of nonthreshold gamma-amplification in a system of polarized nuclei, Soviet Phys. – Journal of Experimental and Theoretical Physics, v.50 (1979) 250-252

  Vysotskii V.I., Vorontsov V.I. Amplification in a nonthreshold parametric X-ray (gamma-ray) laser, Soviet Phys. – Journal of Experimental and Theoretical Physics, v.46 (1977) 27-35

  Vysotskii V.I., Vorontsov V.I. Peculiarities of kinetics of resonant interaction of gamma-radiation, Izvestia of Academy of Science of USSR (Bulletine of Russian Academy of Science), ser. Physics, v.39 (1975) 496-500

  Vysotskii V.I., Vorontsov V.I. Concerning the kinetics of stimulated radiation in the transiet regime, Soviet Phys. – Journal of Experimental and Theoretical Physics, v.39 (1974) 748-751

  Vysotskii V.I., Vorontsov V.I. Perspectives of research on gamma-laser creation, DAN UkrSSR (Annals of Ukrainian Academy of Science ), ser. A, n.5 (1974) 442-445

  Vysotskii V.I., Vorontsov V.I. On the questions of induced Mossbauer gamma-radiation. Quantum electronics, Kiev, n.8 (1974) 63-69

  Vysotskii V.I., Vorontsov V.I. Questions of kinetics of induced Mossbauer gamma-radiation. Quantum electronics, Kiev, n.8 (1974) 69-79

  Опубликовано 21 июля, 14:56

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