Scientific Research An Academic Publisher
OPEN ACCESS
Add your e-mail address to receive free newsletters from SCIRP.
Select Journal AA AAD AAR AASoci AAST ABB ABC ABCR ACES ACS ACT AD ADR AE AER AHS AID AiM AIT AJAC AJC AJCC AJCM AJIBM AJMB AJOR AJPS ALAMT ALC ALS AM AMI AMPC ANP APD APE APM ARS ARSci AS ASM BLR CC CE CellBio ChnStd CM CMB CN CRCM CS CSTA CUS CWEEE Detection EMAE ENG EPE ETSN FMAR FNS GEP GIS GM Graphene GSC Health IB ICA IIM IJAA IJAMSC IJCCE IJCM IJCNS IJG IJIDS IJIS IJMNTA IJMPCERO IJNM IJOC IJOHNS InfraMatics JACEN JAMP JASMI JBBS JBCPR JBiSE JBM JBNB JBPC JCC JCDSA JCPT JCT JDAIP JDM JEAS JECTC JEMAA JEP JFCMV JFRM JGIS JHEPGC JHRSS JIBTVA JILSA JIS JMF JMGBND JMMCE JMP JPEE JQIS JSBS JSEA JSEMAT JSIP JSS JSSM JST JTR JTST JTTs JWARP LCE MC ME MI MME MNSMS MPS MR MRC MRI MSA MSCE NJGC NM NR NS OALib OALibJ ODEM OJA OJAB OJAcct OJAnes OJAP OJApo OJAppS OJAPr OJAS OJBD OJBIPHY OJBM OJC OJCB OJCD OJCE OJCM OJD OJDer OJDM OJE OJEE OJEM OJEMD OJEpi OJER OJF OJFD OJG OJGas OJGen OJI OJIC OJIM OJINM OJL OJM OJMC OJMetal OJMH OJMI OJMIP OJML OJMM OJMN OJMP OJMS OJMSi OJN OJNeph OJO OJOG OJOGas OJOp OJOph OJOPM OJOTS OJPathology OJPC OJPChem OJPed OJPM OJPP OJPS OJPsych OJRA OJRad OJRD OJRM OJS OJSS OJSST OJST OJSTA OJTR OJTS OJU OJVM OPJ POS PP PST PSYCH SAR SCD SGRE SM SN SNL Soft SS TEL TI UOAJ VP WET WJA WJCD WJCMP WJCS WJET WJM WJNS WJNSE WJNST WJV WSN YM
More>>
Glover III, R.E. and Tinkham, M. (1957) Physical Review, 108, 243. http://dx.doi.org/10.1103/PhysRev.108.243
has been cited by the following article:
TITLE: Quantum Statistical Derivation of a Ginzburg-Landau Equation
AUTHORS: Shigeji Fujita, Akira Suzuki
KEYWORDS: Ginzburg-Landau Equation, Complex-Order Parameter, Coherent Length, Cooper Pair (Pairon), Pairon Density Operator, T-Dependent Pairon Energy Gap
JOURNAL NAME: Journal of Modern Physics, Vol.5 No.16, October 20, 2014
ABSTRACT: The pairon field operator ψ(r,t) evolves, following Heisenberg’s equation of motion. If the Hamiltonian H contains a condensation energy α0(, , the evolution equation for ψ is non-linear, from which we derive the Ginzburg-Landau (GL) equation: for the GL wave function where σdenotes the state of the condensed Cooper pairs (pairons), and n the pairon density operator (u and are kind of square root density operators). The GL equation with holds for all temperatures (T) below the critical temperature Tc, where εg(T) is the T-dependent pairon energy gap. Its solution yields the condensed pairon density . The T-dependence of the expansion parameters near Tc obtained by GL: constant is confirmed.
Related Articles:
A Review on Alternative Gold Recovery Re-agents to Cyanide
Mertol Gökelma, Alexander Birich, Srecko Stopic, Bernd Friedrich
DOI: 10.4236/msce.2016.48002 2,593 Downloads 4,700 Views Citations
Pub. Date: August 18, 2016
Re-Emergence of Malaria in Malaysia: A Review Article
Alene Sze Jing Yong, Parasakthi Navaratnam, Amudha Kadirvelu, Naganathan Pillai, Naganathan Pillai
DOI: 10.4236/oalib.1104298 1,194 Downloads 2,782 Views Citations
Pub. Date: February 23, 2018
Comparative Study between Physical Properties of Virgin Oil and Re-Refining Oil
Bestoon M. Faqi-Ahmed, Karzan A. Omar
DOI: 10.4236/oalib.1103393 1,006 Downloads 1,437 Views Citations
Pub. Date: February 20, 2017
The Pattern of M & A Integration: A Literature Review
Shixia Lu
DOI: 10.4236/ajibm.2018.82019 1,051 Downloads 1,887 Views Citations
Prevalence of Tinnitus in Early Stages of Ménière’s Disease
Leonardo Manzari, Rosella Tomassoni, Eugenia Treglia, Donatella Formisano
DOI: 10.4236/health.2016.85040 2,391 Downloads 3,411 Views Citations
Pub. Date: March 15, 2016
