The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation

The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation

The influence of multi-line pulsed excitation of target isotopes within the method of selective laser assisted retarded condensation (SILARC) on the efficiency of boron isotopes separation is investigated. In pulsed mode simultaneous excitation of all four isotopologues   11B35Cln37Cl3−n is possible...

Full description

Bibliographic Details
Main Authors: K. A. Lyakhov, A. N. Pechen, H.-J. Lee
Format: Article
Language:English
Published: AIP Publishing LLC 2018-09-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5040903
id doaj-ea2296bd40c748baad2ceb6d0a25524a
record_format Article
spelling doaj-ea2296bd40c748baad2ceb6d0a25524a2020-11-25T01:57:22ZengAIP Publishing LLCAIP Advances2158-32262018-09-0189095325095325-910.1063/1.5040903098809ADVThe efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensationK. A. Lyakhov0A. N. Pechen1H.-J. Lee2Department of Nuclear and Energy Engineering, Jeju National University, Ara-dong 1, Jeju 63243, South KoreaLaboratory of Mathematical Methods for Quantum Technologies of Steklov Mathematical Institute, Gubkina, 8, Moscow 119991, RussiaDepartment of Nuclear and Energy Engineering, Jeju National University, Ara-dong 1, Jeju 63243, South KoreaThe influence of multi-line pulsed excitation of target isotopes within the method of selective laser assisted retarded condensation (SILARC) on the efficiency of boron isotopes separation is investigated. In pulsed mode simultaneous excitation of all four isotopologues   11B35Cln37Cl3−n is possible. In order to study it, a new formula for multi-line excitation rate is derived. The total number of photons absorbed by target isotopologues for proposed physical parametrization of the laser pulse is compared with continuous wave excitation case, corresponding to the minimal level of laser intensity, required to excite all four isotopologues. It is found that irradiation efficiency of the pulsed mode is 20.59 times smaller than for CW-mode one. Influence of multi-pass cavity on the efficiency of excitation has been also considered.http://dx.doi.org/10.1063/1.5040903
collection DOAJ
language English
format Article
sources DOAJ
author K. A. Lyakhov
A. N. Pechen
H.-J. Lee
spellingShingle K. A. Lyakhov
A. N. Pechen
H.-J. Lee
The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation
AIP Advances
author_facet K. A. Lyakhov
A. N. Pechen
H.-J. Lee
author_sort K. A. Lyakhov
title The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation
title_short The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation
title_full The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation
title_fullStr The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation
title_full_unstemmed The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation
title_sort efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2018-09-01
description The influence of multi-line pulsed excitation of target isotopes within the method of selective laser assisted retarded condensation (SILARC) on the efficiency of boron isotopes separation is investigated. In pulsed mode simultaneous excitation of all four isotopologues   11B35Cln37Cl3−n is possible. In order to study it, a new formula for multi-line excitation rate is derived. The total number of photons absorbed by target isotopologues for proposed physical parametrization of the laser pulse is compared with continuous wave excitation case, corresponding to the minimal level of laser intensity, required to excite all four isotopologues. It is found that irradiation efficiency of the pulsed mode is 20.59 times smaller than for CW-mode one. Influence of multi-pass cavity on the efficiency of excitation has been also considered.
url http://dx.doi.org/10.1063/1.5040903
work_keys_str_mv AT kalyakhov theefficiencyofonelineversusmultilineexcitationofboronisotopeswithinthemethodofselectivelaserassistedretardationofcondensation
AT anpechen theefficiencyofonelineversusmultilineexcitationofboronisotopeswithinthemethodofselectivelaserassistedretardationofcondensation
AT hjlee theefficiencyofonelineversusmultilineexcitationofboronisotopeswithinthemethodofselectivelaserassistedretardationofcondensation
AT kalyakhov efficiencyofonelineversusmultilineexcitationofboronisotopeswithinthemethodofselectivelaserassistedretardationofcondensation
AT anpechen efficiencyofonelineversusmultilineexcitationofboronisotopeswithinthemethodofselectivelaserassistedretardationofcondensation
AT hjlee efficiencyofonelineversusmultilineexcitationofboronisotopeswithinthemethodofselectivelaserassistedretardationofcondensation
_version_ 1724974598709051392

Similar Items