Results 251 to 260 of about 226,675 (301)

IIIG9 and PP1α form a protein complex in the adherens junctions of polarized ependymal and MDCK cells. [PDF]

open access: yesFluids Barriers CNS
Oviedo MJ   +8 more
europepmc   +1 more source

Analysis for Plasma Wall Interactions in LHD

open access: yesAnalysis for Plasma Wall Interactions in LHD
openaire  

Plasma-wall interaction in NET

Journal of Nuclear Materials, 1987
NET is conceived as an experimental reactor with the aim of demonstrating reactor-relevant plasma performance and reliable operation of the device as well as developing and testing components for a demonstration reactor. For power and particle exhaust both a single-null and a double-null poloidal divertor configuration are under consideration.
M F A Harrison   +2 more
exaly   +2 more sources

Development of a Compact Divertor Plasma Simulator for Plasma-Wall Interaction Studies on Neutron-Irradiated Materials

open access: yesPlasma and Fusion Research, 2017
0000-0001-7826-0046We have developed a compact divertor plasma simulator (CDPS) that can produce steady-state deuterium and/or helium plasmas with densities above ∼ 1018 m−3 for Plasma-Wall Interaction (PWI) studies of neutron-irradiated materials.
Nobutada Ohno   +2 more
exaly   +4 more sources

Plasma-Wall Interactions in ITER

Journal of Nuclear Materials, 1997
Abstract This paper reviews the status of the design of the divertor and first-wall/shield, the main in-vessel components for ITER. Under nominal ignited conditions, 300 MW of alpha power will be produced and must be removed from the divertor and first-wall. Additional power from auxiliary sources up to the level of 100 MW must also be removed in the
Parker, R.   +12 more
  +5 more sources

Issues in the plasma wall interactions in RFX

Journal of Nuclear Materials, 2001
The standard intrinsic nature of transport in reversed field pinches entails that remarkable ohmic power input (20-80 MW) is involved in the all-graphite, MA level RFX device. MHD instabilities restrict the region of plasma-wall interaction (PWI), where power densities >100 may be locally reached.
M Valisa   +14 more
openaire   +3 more sources

Burning Plasma—Wall Interactions

AIP Conference Proceedings, 2009
We have studied chemical sputtering, hydrogen retention and other products of particle‐surface interactions in the least known, intermediate‐to‐low range of impact energies (1–30 eV/D), with atomic and molecular projectiles of deuterated amorphous carbon surfaces.
Predrag S. Krstić   +2 more
openaire   +1 more source

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