All Stories

  1. Deep Learning-Based Reconstruction of Particle Beam Energy Spectra from Attenuation Curve Data
  2. Characterization of Bright Spots and Erosion Structures Formed on a Grounded Electrode during Nanosecond Diffuse Discharges at Both Polarities
  3. Glow Dynamics of a Nanosecond Discharge in Air, Nitrogen, and Helium at the Presence of a Soot Layer on the Grounded Anode Surface
  4. Properties of diffuse and volume discharges that are important for their applications
  5. Ignition of Carbon Black during Nanosecond Diffuse and Spark Discharges in Air at Atmospheric Pressure
  6. Particles from Electrodes with a Small Radius of Curvature During Pulsed Discharges in Air
  7. Thin Luminous Tracks during a Nanosecond Discharge in a Nonuniform Electric Field
  8. Uniform Action of Plasma of a Nanosecond Pulsed High-Voltage Discharge on the Surface of a Flat Anode
  9. Nano-and Microparticles of Carbon as a Tool for Determining the Uniformity of a Diffuse Discharge Exposure
  10. Radiation source with enhanced virucide effectiveness based on a mixture of helium and iodine vapor
  11. Influence of Nanoparticles and Metal Vapors on the Color of Laboratory and Atmospheric Discharges
  12. Generation mode of runaway electron beams with high amplitude in atmospheric pressure air
  13. Different modes of runaway electron beams generated in high-pressure gases
  14. Time behavior of an electron beam current pulse in the axial and peripheral zones of an anode in vacuum and gas-filled diodes
  15. Emission of xenon in the spectral range of 120 – 800 nm upon excitation by diffuse and spark discharges
  16. Cooling techniques for excilamps driven by dielectric barrier discharge
  17. A Nanosecond Electron Accelerator with a Heterogeneous Transmission Line and a Gas-Filled Diode
  18. Cherenkov radiation and cathodoluminescence in sapphire, quartz, and diamond under the excitation of an electron beam
  19. Formation of a Negative Streamer in a Sharply Nonuniform Electric Field and the Time of Generation of Runaway Electrons
  20. Measuring and Modeling Streamer Velocity at an Air Discharge in a Highly Inhomogeneous Electric Field
  21. Electrons accelerator for research Cherenkov radiation in different specimens
  22. Cumulation effect of an electron beam generated in a high-voltage nanosecond discharge plasma in vacuum and gas diodes
  23. On the Influence of Electron Energy on Characteristics of the Cherenkov Radiation and Cathodoluminescence
  24. Streamer Breakdown with Runaway Electrons Forming Diffuse Discharges in an Inhomogeneous Electric Field
  25. Cumulation of a High-Current Electron Beam During a Nanosecond High-Voltage Discharge in a Low-Pressure Diode
  26. Experimental Determination of the Generation Moment of Runaway Electrons
  27. Effect of Air Pressure on Parameters of Beam Current and X-Ray Radiation Generated in a Gas Diode
  28. Emission of diamonds, leucosapphire, and KU-1 quartz in the range of 200–800 nm excited by electron beams with a pulse duration of 0.5 and 12 ns
  29. Cumulation of a high-current electron beam at nanosecond high-volyage discharge in a low-pressure diode
  30. Spectral and amplitude-time characteristics of crystals excited by a runaway electron beam
  31. Features of streamer formation in a sharply non-uniform electric field
  32. Beam-plasma discharge in a dielectric cavity by electron beam injection
  33. Generators of Atmospheric Pressure Diffuse Discharge Plasma and Their Use for Surface Modification
  34. E-beam generation in discharges initiated by voltage pulses with a rise time of 200 ns at an air pressure of 12.5–100 kPa
  35. Efficient N2 laser pumped by nanosecond diffuse discharge
  36. Influence of electron energy on the characteristics of Cherenkov radiation and pulse cathodoluminescence
  37. Streamer breakdown with runaway electrons, forming diffuse discharges in an inhomogeneous electric field
  38. Light Emission from Crystals Excited by a 110-ps Pulsed Electron Beam
  39. Streamer Breakdown of Atmospheric-Pressure Air in a Non-Uniform Electric Field at High Overvoltages
  40. Diffuse discharge in mixtures of SF6 with H2, D2 and C2H6 formed by nanosecond voltage pulses in non-uniform electric field
  41. Excitation of Diamonds by a Subnanosecond Runaway Electron Beam with an Electron Energy of Up to 200 keV Generated in a Nanosecond Gas Discharge
  42. Positive streamers in a point-to-plane gap filled with air and nitrogen at low and high voltages
  43. Subnanosecond Breakdown in the Strongly Overvoltaged Gap: Simulation and Experiment
  44. Generation and registration of runaway electron beams during the breakdown of highly overvoltaged gaps filled with dense gases
  45. Displacement current during the formation of positive streamers in atmospheric pressure air with a highly inhomogeneous electric field
  46. Simulation of the Subnanosecond Runaway Electron Source for Low-Dose Industrial Radiography
  47. Streamers at the Subnanosecond Breakdown of Argon and Nitrogen in Nonuniform Electric Field at Both Polarities
  48. Measurement of the Dynamic Displacement Current as a New Method of Study of the Dynamics of Formation of a Streamer at a Breakdown of Gases at a High Pressure
  49. Calculation of energy absorbed in the plasma of high voltage nanosecond discharge with subnanosecond rise-time of voltage impulse
  50. A Compact Setup Based on a Gas Diode for Studying of Cathodoluminescence
  51. Subnanosecond breakdown in high-pressure gases
  52. Ionization Waves During the Subnanosecond Breakdown Initiated by Runaway Electrons in High-Pressure Nitrogen and Air
  53. Formation of ball streamers at a subnanosecond breakdown of gases at a high pressure in a nonuniform electric field
  54. ICCD-imaging of a plasma glow during the prebreakdown stage of nanosecond discharges at both polarities in nitrogen, air, and argon
  55. Luminescence of crystals excited by a runaway electron beam and by excilamp radiation with a peak wavelength of 222 nm
  56. The physical nature of electrons with “anomalous” energies in fast atmospheric discharges
  57. Characteristic radiation of nitrogen under subnanosecond breakdown in a highly nonuniform electric field near the positive-polarity electrode
  58. VUV radiation in the plasma of nanosecond discharges initiated by runaway electrons
  59. Parameters of runaway electron beam generated during excitation by nanosecond voltage pulses in short gaps filled with nitrogen
  60. Review of supershort avalanche electron beam during nanosecond-pulse discharges in some gases
  61. Influence of the interelectrode distance and the gas pressure on parameters of a runaway electron beam generating during the nanosecond breakdown in SF6 and nitrogen
  62. Parameters of the beam plasma formed by a forevacuum plasma source of a ribbon beam in zero-field transportation system
  63. Laser action in the IR, UV and VUV in runaway electron preionized discharges
  64. Generation of runaway electrons and X rays in an inhomogeneous electric field at high gas pressures
  65. Runaway electrons during subnanosecond breakdowns in high-pressure gases
  66. Generation of dual pulses of the runaway electron beam current during the subnanosecond breakdown of atomic and molecular gases
  67. VUV radiation of heteronuclear dimers and its amplification in the plasma of high-voltage nanosecond discharges initiated by runaway electrons in Ar–Xe mixture
  68. Radiative Characteristics of the Pulse-Periodic Discharge Plasma Initiated by Runaway Electrons
  69. Laser monitor visualization of gas-dynamic processes under pulse-periodic discharges initiated by runaway electrons in atmospheric pressure air
  70. Neutrons in a nanosecond low-pressure discharge in deuterium
  71. Theoretical simulation of the picosecond runaway-electron beam in coaxial diode filled with SF6at atmospheric pressure
  72. Amplitude−temporal characteristics of a supershort avalanche electron beam generated during subnanosecond breakdown in air and nitrogen
  73. Colored Diffuse Mini Jets in Runaway Electrons Preionized Diffuse Discharges
  74. Supershort avalanche electron beam inSF6and krypton
  75. Influence of field ionization on the efficiency of neutron generation
  76. Spectral and amplitude–time characteristics of radiation of plasma of a repetitively pulsed discharge initiated by runaway electrons
  77. VUV radiation of heteronuclear dimers and its amplification in the plasma of the high-voltage nanosecond discharge initiated by runaway electrons in the Ar-Xe mixture
  78. Visualization of gasdynamic processes at a pulse-periodic discharge initiated by runaway electrons in atmospheric pressure air with a laser monitor
  79. Luminescence of atoms and ions of aluminum in pulse-periodic nanosecond discharge initiated by runaway electrons in nitrogen
  80. Laser action in runaway electron pre-ionized diffuse discharges
  81. Parameters of REP DD's plasma formed during the pulse and pulse-periodic modes in dense gases
  82. Excilamps and their Applications.
  83. Blue and green jets in laboratory discharges initiated by runaway electrons
  84. The optical emission spectroscopy of pulsed and pulse- periodic discharges initiated with runaway electrons
  85. Inverted Polarity Effect at the Subnanosecond High-Voltage Breakdown of Air
  86. Analogue of bead lightning in a pulse discharge initiated by runaway electrons in atmospheric pressure air
  87. Dynamics of ionization processes in high-pressure nitrogen, air, and SF6 during a subnanosecond breakdown initiated by runaway electrons
  88. On the parameters of runaway electron beams and on electrons with an “anomalous” energy at a subnanosecond breakdown of gases at atmospheric pressure
  89. On the nature of radiation of blue and green jets in laboratory discharges initiated by runaway electrons
  90. Breakdown features of a high-voltage nanosecond discharge initiated with runaway electrons at subnanosecond voltage pulse rise time
  91. Effect of gas heating on the generation of an ultrashort avalanche electron beam in the pulse-periodic regime
  92. Gas lasers pumped by runaway electrons preionized diffuse discharge
  93. Repetitively pulsed UV radiation source based on a run-away electron preionised diffuse discharge in nitrogen
  94. Generation of neutrons in a nanosecond low-pressure discharge in deuterium
  95. Bent paths of a positive streamer and a cathode-directed spark leader in diffuse discharges preionized by runaway electrons
  96. Efficient gas lasers pumped by run-away electron preionized diffuse discharge
  97. Equivalent of bead lightning in pulse discharge generated by runaway electrons in atmospheric pressure air
  98. Spots on electrodes and images of a gap during pulsed discharges in an inhomogeneous electric field at elevated pressures of air, nitrogen and argon
  99. Electrode material splashing during a high-voltage nanosecond discharge in low pressure deuterium, hydrogen, helium, and argon
  100. Anode and Cathode Spots in High-Voltage Nanosecond-Pulse Discharge Initiated by Runaway Electrons in Air
  101. Determination of the electron concentration and temperature, as well as the reduced electric field strength, in the plasma of a high-voltage nanosecond discharge initiated in atmospheric-pressure nitrogen by a runaway electron beam
  102. Initial stage of breakdown of a point-plane gap filled with high-pressure nitrogen and SF6
  103. Spectral parameters of nonchain volume-discharge HF(DF) laser radiation
  104. Abnormal polarity effect in nanosecond-pulse breakdown of SF6 and nitrogen
  105. Generation of super-short avalanche electron beams in SF6
  106. Inflections of spark leaders in elevated-pressure nanosecond gas discharges
  107. UV, visible, and IR lasers pumped by the diffuse discharge formed by run-away electrons
  108. Dynamic displacement current in subnanosecond breakdowns in an inhomogeneous electric field
  109. Nanosecond discharges with runaway electrons and X-rays in atmospheric pressure air, nitrogen, CH4, SF6, xenon, krypton, argon and helium
  110. Transition of a diffuse discharge to a spark at nanosecond breakdown of high-pressure nitrogen and air in a nonuniform electric field
  111. Lasing in the UV, IR and visible spectral ranges in a runaway-electron-preionised diffuse dischrage
  112. Application of dynamic displacement current for diagnostics of subnanosecond breakdowns in an inhomogeneous electric field
  113. Time behaviour of discharge current in case of nanosecond-pulse surface dielectric barrier discharge
  114. Two-component structure of the current pulse of a ranaway electron beam generated during electric breakdown of elevated-pressure nitrogen
  115. Change of the e-beam generation mode at transition from the vacuum to the gas-filled diode
  116. Excilamps based on inert gases and their mixtures, excited by a volume discharge induced by a beam of runaway electrons
  117. Excilamps based on xenon dimers excited by a barrier discharge
  118. Vacuum-ultraviolet excilamps with excitation by a barrier corona discharge
  119. Note: Measurement of extreme-short current pulse duration of runaway electron beam in atmospheric pressure air
  120. Spark discharge formation in an inhomogeneous electric field under conditions of runaway electron generation
  121. Emission of cyan upon excitation of nitrogen, air, and N2-CH4 mixture by discharge pulses in an inhomogeneous electric field
  122. Excilamps and their applications
  123. Neutron emission during a nanosecond discharge in deuterium in a nonuniform electric field
  124. Lasing from the domain of collision of ionisation waves produced due to electric field concentration at electrodes with a small radius of curvature
  125. High-Pressure Diffuse and Spark Discharge in Nitrogen and Air in a Spatially Nonuniform Electric Field of High Intensity
  126. Neutron generation during pulsed discharge in deuterium
  127. Generation of a supershort avalanche electron beam in a subnanosecond breakdown in different gases at pressures from 1 torr to 15 atm
  128. The neutrons emission during the nanosecond discharge in deuterium with inhomogeneous electric field distribution
  129. Formation of superpower volume discharges and their applications
  130. UV and VUV Excilamps with High Peak Power
  131. Estimation of the efficiency of the hybrid LIDAR-DOAS system of lidar sensing of the polluted atmosphere using pulsed excilamps
  132. Modes of Generation of Runaway Electron Beams in He, $ \hbox{H}_{2}$, Ne, and $\hbox{N}_{2}$ at a Pressure of 1–760 Torr
  133. Runaway electrons preionized diffuse discharges at high pressure
  134. Carbon monoxide emission in VUV spectral region upon excitation of natural gas by a capacitive discharge
  135. On the initiation of a spark discharge upon the breakdown of nitrogen and air in a nonuniform electric field
  136. Emission in argon and krypton at 147 nm excited by runaway-electron-induced diffusion discharge
  137. Modes of generation of runaway electron beams in gases at a pressure of 1–760 Torr
  138. Effective regimes of runaway electron beam generation in helium, hydrogen, and nitrogen
  139. Supershort Avalanche Electron Beams and X-rays in Atmospheric-Pressure Air
  140. High-pressure runaway-electron-preionized diffuse discharges in a nonuniform electric field
  141. 10.1007/s11454-008-1017-2
  142. 10.1007/s11454-008-2015-0
  143. Generation of subnanosecond electron beams in air at atmospheric pressure
  144. Potential of pulsed excilamps for remote sounding of polluted atmosphere
  145. High Power UV and VUV Excilamps and Their Applications
  146. Optical Properties of Runaway Electron Preionized Diffuse Discharges and Their Applications for Excilamps and Lasers
  147. Runaway-electron-preionized diffuse discharge at atmospheric pressure and its application
  148. Radiative characteristics of nitrogen upon excitation by volume discharge initiated by runaway electron beam
  149. High power VUV and UV excilamps
  150. Generation of subnanosecond electron beams in atmospheric pressure air
  151. Runaway electrons preionized diffuse discharges at high pressure
  152. Supershort Avalanche Electron Beams in Discharges in Air and Other Gases at High Pressure
  153. Energy distribution of runaway electrons generated by a nanosecond disharge in atmospheric-pressure air
  154. High power UV and VUV pulsed excilamp
  155. Runaway electrons preionized diffuse discharges at atmospheric pressure
  156. Supershort avalanche electron beams in air and other gases at high pressure
  157. A coaxial chopping gap filled with air at atmospheric pressure with a pulse decay time ≤100 ps
  158. Large-aperture excilamps for microelectronic applications
  159. Spectra of electrons and X-ray photons in a diffusive nanosecond discharge in air under atmospheric pressure
  160. Effect of gas pressure on amplitude and duration of electron beam current in a gas-filled diode
  161. Energy distribution of runaway electrons generated by a nanosecond discharge in atmospheric-pressure air
  162. Generation of supershort avalanche electron beams and formation of diffuse discharges in different gases at high pressure
  163. Supershort avalanche electron beam generation in gases
  164. Supershort avalanche electron beams and x-ray in high-pressure nanosecond discharges
  165. Electron flux spatial distribution in an ultrashort avalanche electron beam generated at atmospheric air pressure
  166. Pumping of lasers and lamps by discharges based on the background-electron multiplication waves
  167. Effect of a transverse magnetic field on the generation of electron beams in the gas-filled diode
  168. Nanosecond discharge in sulfur hexafluoride and the generation of an ultrashort avalanche electron beam
  169. The nature of emitting microdischarges in barrier-discharge lamps
  170. High pulse radiating power excilamps
  171. Pulsed UV and VUV excilamps
  172. Generation and measurement of subnanosecond electron beams in gas-filled diodes
  173. One- and two-barrier excilamps on xenon dimers operating in the VUV range
  174. Generation of runaway electron subnanosecond pulses in nitrogen and helium at a voltage of 25 kV across the gap
  175. Diffuse nanosecond discharges at elevated pressures in nonuniform electric fields
  176. A collector assembly for measuring a subnanosecond-duration electron beam current
  177. Discharge current and current of supershort avalanche E-beam at volume nanosecond discharge in non-uniform electric field
  178. Sources of spontaneous narrow-band UV and VUV radiation
  179. Detection of short X-ray pulses excited by an atmospheric-pressure discharge of nanosecond duration in air
  180. Generation regimes for the runaway-electron beam in gas
  181. On the generation of supershort avalanche electron beams and x radiation during nanosecond discharges in dense gases (results and discussion)
  182. On the formation of a barrier discharge in excilamps
  183. Effective emission of Xe2* and Kr2* excited by a pulsed corona discharge bounded by a dielectric barrier
  184. High-power short-pulse xenon dimer spontaneous radiation source
  185. Discharge current and current of supershort avalanche E-beam at volume nanosecond discharge in non-uniform electric field
  186. Generation of powerful sub-nanosecond e-beams and x-rays in gas discharges under atmospheric pressure
  187. Spectral characteristics of a high-current pulsed discharge in xenon
  188. Supershort avalanche electron beam generation in N2 and He at quasi-continuous gap voltage
  189. Ultrashort electron beams generated on the flat part of a voltage pulse in nitrogen and helium
  190. Electron beam generation in nitrogen and helium at a low voltage on a gas diode
  191. Excess-energy electrons in a nanosecond electron beam from a vacuum diode
  192. Discharge current and ultrashort avalanche electron beam current in a volume nanosecond gas discharge in inhomogeneous electric field
  193. Possible application of a volume avalanche discharge initiated by an electron beam for designing a krypton dimer laser
  194. High-current-density subnanosecond electron beams formed in a gas-filled diode at low pressures
  195. Afterglow emission from xenon, krypton, and argon dimers in nanosecond volume discharge at elevated pressures
  196. Capacitive and barrier discharge excilamps and their applications (Review)
  197. A windowless VUV excilamp
  198. Study of emission of a volume nanosecond discharge plasma in xenon, krypton and argon at high pressures
  199. A high-power xenon dimer excilamp
  200. Effective emission of Xe2* and Kr2* excited by pulsed corona discharge b...
  201. Free-expanding and bounded discharge in Xe flashlamp
  202. UV flashlamp source for high-voltage high-current diamond switches
  203. Calculation of absolute values of the spectral energy density of polychromatic radiation
  204. Powerful source of spontaneous radiation in the spectral range 200-350 nm pumped by unidirectional current pulse
  205. A photoreactor on the basis of a Xe2 excilamp
  206. High-power spontaneous UV radiation source and its excitation regimes
  207. High-power source of 200–350 nm spontaneous emission excited by unipolar current pulses
  208. UV and VUV light sources on R2* and RX* molecules
  209. Emission characteristics of a pulsed discharge in xenon
  210. Formation of coniform microdischarges in KrCl and XeCl excimer lamps
  211. Modeling of barrier filaments as miniglow discharge: Xe2 (172 nm) and XeCl (308 nm) excilamps
  212. Spontaneous UV source based on pulsed discharge in Xe (Kr, Ar)
  213. Discharge-pumped radiation of xenon dimers
  214. Spontaneous UV radiation source based on pulsed discharge in xenon
  215. Excilamps: efficient sources of spontaneous UV and VUV radiation
  216. High-power UV excilamps excited by a glow discharge
  217. Excilamps: efficient sources of spontaneous UV and VUV radiation
  218. KrCl and XeCl exciplex glow discharge lamps with an output power of ∼1.5 kW
  219. High-power excilamps pumped by a barrier discharge
  220. Xe(He,Kr)-I 2 (Cl 2 ) glow, barrier and capacitive discharge excilamps
  221. Discharge and radiation characteristics of Xe one-barrier excilamps
  222. Power and energy input determination for barrier discharge excilamps
  223. Xe(He)-I 2 glow and capacitive discharge excilamps
  224. Influence of excitation pulse form on barrier discharge excilamp efficiency
  225. An effective high-power KrCl excimer barrier-discharge lamp
  226. A 1-kW/cm2 flash KrCl excimer lamp
  227. Capacitive-discharge KrCl excilamps with short radiation pulsewidth
  228. Capacitive discharge excilamps with short duration of radiation pulse
  229. Capacitive discharge excilamps
  230. High-power spontaneous ultraviolet sources
  231. Pulsed lasers operating by the atomic transitions of inert gases on pumping by a self-sustained transverse discharge
  232. Broadband radiation in Ne pumped by e-beam and electrical discharge
  233. High-power excilamps with short-pulse duration
  234. 10.1007/s10786-008-2010-8
  235. UV and VUV excilamps excited by glow, barrier and capacitive discharges
  236. Sealed efficient excilamps excited by a capacitive discharge
  237. UV and VUV efficient excilamps
  238. Efficient pumping of discharge gas lasers by generators with inductive energy storage
  239. Glow-and-barrier-discharge efficient excilamps
  240. Application of KrCI excilamp for cleaning GaAs surfaces using atomic hydrogen
  241. Efficient nonchain chemical HF lasers initiated by e-beam and self-sustained discharge
  242. Cylindrical glow-discharge-pumped excimer lamps
  243. HF laser pumped by a generator with an inductive energy storage unit
  244. Coaxial, cylindrical, and planar UV excilamps pumped by glow or barrier discharge
  245. High-power coherent and incoherent UV and VUV sources
  246. High-average-power exciplex flashlamps
  247. Versatile pulsed FOTON, LIDA-D and LIDA-M model lasers
  248. N2laser pumped by a generator with inductive energy storage and a semiconductor current breaker
  249. 'Foton' series of universal pulsed lasers
  250. Pulsed chemical electric-discharge SF6—H2laser
  251. Radially convergent 30–100-μs e-beam-pumped Xe and Ne lasers
  252. Electron-beam-pumped broad-aperture lasers
  253. High-power narrow-band dye laser pumped by a XeCl Joule exciplex laser