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- Article name
- Wide - aperture plasma-electrode Pockels cell
- Authors
- Andreev N. F., , nandreev@appl.sci-nnov.ru, Institute of Applied Physics, 4 Ul'yanov str., Nizhny Novgorod, 603950, Russia
Babin A. A., , , Institute of Applied Physics, 4 Ul'yanov str., Nizhny Novgorod, 603950, Russia
Davydov V. S., , , Institute of Applied Physics, 4 Ul'yanov str., Nizhny Novgorod, 603950, Russia
Matveev A. Z., , , Institute of Applied Physics, 4 Ul'yanov str., Nizhny Novgorod, 603950, Russia
Garanin S. G., , , Russian Federal Nuclear Centre - VNIIEF, 37 Mir av., Sarov, 607188, Russia
Dolgopolov Yu. V., , dolgop@otd13.vniief.ru, Russian Federal Nuclear Centre - VNIIEF, 37 Mir av., Sarov, 607188, Russia
Kulikov S. M., , , Russian Federal Nuclear Centre - VNIIEF, 37 Mir av., Sarov, 607188, Russia
Sukharev S. A., , sukharev@otd13.vniief.ru, Russian Federal Nuclear Centre - VNIIEF, 37 Mir av., Sarov, 607188, Russia
Tutin S. V., , , Russian Federal Nuclear Centre - VNIIEF, 37 Mir av., Sarov, 607188, Russia
- Keywords
- laser module / Pockels cell / plasma-electrode
- Year
- 2010 Issue 6 Pages 50 - 56
- Code EDN
- Code DOI
- Abstract
- We have investigated experimentally electrical and optical characteristics of the plasma-electrode Pockels cell with the 100×100 mm aperture. Time characteristics, contrast, transmission factor and optical uniformity of a cell are measured. It is shown that half-wave effective voltage of the cell is equal to 10 kV, transmission window duration can be changed from 250 up to 550 ns, rise time of leading front is 40-50 ns, fall off time of rear edge 70-100 ns. Plasma electrodes formation time is 40±5 ns.
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