Section 3. Transition Radiation |
D.V.Karlovets |
Electromagnetic field of a vortex electron and non-paraxial effects (Plenary talk) |
A.A.Savchenko |
Effect of interference in angular distribution and new opportunities for transition radiation detectors |
D.K.Danilova |
Transition radiation from correlated electron bunches |
I.E.Vnukov |
Influence of an angle between the electron beam and a normal to a crystal surface on the diffracted transition radiation yield |
S.V.Trofymenko |
Proposal to study diffracted X-ray transition radiation by a “half-bare” electron on the test bam facility at DESY |
A.V.Noskov |
On the problem of application of diffracted transition radiation for indication of relativistic electron beam parameters |
L.G.Sukhikh |
GTR from the echelette profile gratings |
R.M.Nazhmudinov |
Observation of transition radiation peak from 2.8 GeV electrons in a multilayer target diffracted in a silicon plate |
Poster Session |
M.V.Bondarenco |
Quadropole bremsstrahlung formfactors |
S.V.Trofymenko |
Coherent effects in ionization loss of high-energy electron bunches |
S.V.Trofymenko |
Formation region effects in X-ray transition radiation by 1-6 gev electrons in multilayer targets of different period |
S.V.Trofymenko |
Diffracted X-ray transition radiation by a half-bare electron |
O.O.Ivashchuk |
Piezoelectric quartz accelerator |
A.V.Shchagin |
Pulsed pyroelectric accelerator |
V.Sotnikova |
Stabilization of the passage of electrons through tapered channels |
I.A.Kishin |
Experimental setup «Rentgen-1» for investigation of radiation mechanisms occurring under interaction of relativistic electrons with a periodic structures |
Section 7. Crystal-assisted Processes |
T.V.Kulevoy |
ARIES – Accelerator Research and Innovation for European Science (Plenary talk) |
A.S.Gogolev |
Diffraction of real and virtual photons in flat and bent pyrolytic graphite crystals |
A.V.Shchagin |
Filling in of crystalline X-ray resonator by transition X-ray radiation of relativistic particles |
V.V.Tikhomirov |
Observation, simulation and applications of accelerated evolution of electromagnetic showers in oriented crystals |
A.N.Oleinik |
X-ray source based on thermoelectric oscillations in a niobate lithium single crystal |
V.Tikhomirov |
Quantum features of incoherent scattering of high energy particles in crystals |
S.V.Blazheviech |
Coherent X-Ray radiation generated in periodical layered structure by relativistic electrons |
Section 8. Applications of Monochromatic X-ray, γ- ray and Terahertz Beams Produced at Electron Accelerators |
A.S.Lobko |
GEANT4 modelling of light collection in parallelepiped-shaped PWO scintillating crystal wrapped by a retroreflective film |
A.A.Kaplii |
Guiding of 10 kev electrons by nanocapillaries in PET |
A.E.Movsisyan |
2D focusing of thermal neutrons and hard X-rays under the external influences |
A.R.Mkrtchyan |
Suppression of inelastic channels of double-walled nanotubes in crystals of symmetry c3v |
O.O.Ivashchuk |
Ceramic piezoelectric transformer in vacuum for production of X-rays |
A.V.Shchagin |
Cooled CDTE X-ray detector for observation of ionization loss of ultrarelativistic electrons at DESY |
L.G.Sukhikh |
OTR SPF dominated beam imaging of micron beams with submicron resolution |
V.S.Malyshevsky |
Dynamical interaction of accelerated atoms of nitrogen with surface of aluminum crystal |
A.A.Klenin |
Compact ion source based on oriented carbon nanotubes |
K.Vokhmyanina |
Transport of relativistic electrons through dielectric channels |
A.Krasnykh |
The method for the gamma beam cross section measurement by scanning with thin scintillation strip |
A.N.Filatov |
Metal artefact reduction in spectral computer tomography |
S.G.Chistyakov |
Computer tomography based on X-ray Talbot-Lau interferometer with enhanced phase-contrast reconstruction |
S.R.Uglov |
High-resolution X-ray radiography based on photon counting detector with digital time delayed integration technique |