You need JavaScript to view this
ETDEWEB   /       /    Power flux distribution on capsule enclosed in radiating cavity

Power flux distribution on capsule enclosed in radiating cavity

Conference:

SAVE / SHARE

XML RIS EndNote CSV/Excel JSON

Abstract

Within the framework of studies on inertial confinement fusion, this paper examined how non-uniformities in the distribution of the radiation sources on the surface of a radiating cavity are reduced by geometrical averaging, i.e., by the fact that a given point upon a spherical capsule, enclosed within, `sees` an extended cavity area. It was evaluated how this reduction depends on the relative cavity/capsule size and on the non-uniformity wavelength. With regard to the emitter, two cases were considered, that of an optically thick emitting layer, and that of an optically thin one, according to two angular distributions (the frequency label is neglected) in which the specific intensity upon the cavity was assumed to have cylindrical symmetry.
Authors:
Publication Date:
Dec 31, 1991
Product Type:
Conference
Report Number:
ETDE-IT-92-20; CONF-910247-4
Reference Number:
SCA: 700310; PA: ITAN-92:001133; SN: 92000719779
Resource Relation:
Conference: International conference on research trends in inertial confinement fusion,La Jolla, CA (United States),4-9 Feb 1991; Other Information: PBD: 1991
Subject:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY; OPTICALLY THICK PLASMA; POWER DISTRIBUTION; NONUNIFORM IRRADIATION; OPTICALLY THIN PLASMA; INERTIAL CONFINEMENT; SURFACES; WAVELENGTHS; CYLINDRICAL CONFIGURATION; SPHERICAL CONFIGURATION; GEOMETRY; SIZE; 700310; PLASMA CONFINEMENT
OSTI ID:
10141883
Research Organizations:
ENEA, Frascati (Italy)
Country of Origin:
Italy
Language:
English
Other Identifying Numbers:
Other: ON: DE92506284; TRN: 92:001133
Availability:
OSTI; NTIS (US Sales Only); INIS
Submitting Site:
ITAN
Size:
12 p.
Announcement Date:
Jul 05, 2005

Conference:

SAVE / SHARE

XML RIS EndNote CSV/Excel JSON

Citation Formats

Dattoli, G, Mari, C, Mezi, L, and Torre, A. Power flux distribution on capsule enclosed in radiating cavity. Italy: N. p., 1991. Web.
Dattoli, G, Mari, C, Mezi, L, & Torre, A. Power flux distribution on capsule enclosed in radiating cavity. Italy.
Dattoli, G, Mari, C, Mezi, L, and Torre, A. 1991. "Power flux distribution on capsule enclosed in radiating cavity." Italy.
@misc{etde_10141883,
title = {Power flux distribution on capsule enclosed in radiating cavity}
 author = {Dattoli, G, Mari, C, Mezi, L, and Torre, A}
 abstractNote = {Within the framework of studies on inertial confinement fusion, this paper examined how non-uniformities in the distribution of the radiation sources on the surface of a radiating cavity are reduced by geometrical averaging, i.e., by the fact that a given point upon a spherical capsule, enclosed within, `sees` an extended cavity area. It was evaluated how this reduction depends on the relative cavity/capsule size and on the non-uniformity wavelength. With regard to the emitter, two cases were considered, that of an optically thick emitting layer, and that of an optically thin one, according to two angular distributions (the frequency label is neglected) in which the specific intensity upon the cavity was assumed to have cylindrical symmetry.}
 place = {Italy}
 year = {1991}
 month = {Dec}
 }