! !======================================================================= ! MODULE MATERIAL_CL ! ! This module defines the material characteristic lengths ! USE ACCURACY_REAL ! IMPLICIT NONE ! REAL (WP) :: EMFP,FWL,PCL,THL,ML,CR,DL,TFL ! END MODULE MATERIAL_CL ! !======================================================================= ! MODULE MATERIAL_PROPERTIES ! USE ACCURACY_REAL ! CONTAINS ! ! !======================================================================= ! SUBROUTINE CHARACTERISTIC_LENGTHS(DMN,RS,T,B,DC,TP) ! ! This subroutine computes and prints out characteristic lengths ! in the input material ! ! References: (1) H. van Houten, B. J. van Wees and C.W.J. Beenakker ! in "Physics and Technology of Submicron Structures", ! H. Heinrich, G. Bauer and F. Kuchar eds., ! Springer Series in Solid State Science Vol. 83, ! pp. 198-207 (1988) ! ! ! Input parameters: ! ! * DMN : dimension ! * RS : Wigner-Seitz radius (in units of a_0) ! * T : system temperature in SI ! * B : magnetic field in SI ! * DC : diffusion coefficient ! * TP : phase-breaking relaxation time in SI ! ! ! Author : D. Sébilleau ! ! Last modified : 24 Jul 2020 ! ! USE REAL_NUMBERS, ONLY : ZERO,ONE,TWO,TTINY USE CONSTANTS_P1, ONLY : H_BAR,E,K_B USE FERMI_SI, ONLY : KF_SI,VF_SI USE PI_ETC, ONLY : PI USE UTILITIES_1, ONLY : D USE SCREENING_VEC ! USE MATERIAL_CL ! IMPLICIT NONE ! CHARACTER (LEN = 2) :: DMN ! REAL (WP) :: RS,T,B,DC,TP REAL (WP) :: KD,K_TF ! INTEGER :: LOGF ! IF(B == ZERO) B = TTINY ! ! EMFP=D(DMN)*DC/VF_SI ! elastic MFP FWL=TWO*PI/KF_SI ! Fermi wavelength PCL=DSQRT(DC*TP) ! phase coherence length THL=DSQRT(H_BAR*DC/(K_B*T)) ! thermal length ML=DSQRT(H_BAR/(E*B)) ! magnetic length CR=H_BAR*KF_SI/(E*B) ! cyclotron radius ! CALL DEBYE_VECTOR(DMN,T,RS,KD) ! DL=ONE/KD ! Debye length ! CALL THOMAS_FERMI_VECTOR(DMN,K_TF) ! TFL=ONE/K_TF ! Thomas-Fermi length ! END SUBROUTINE CHARACTERISTIC_LENGTHS ! END MODULE MATERIAL_PROPERTIES