"*.qwkpencwvwoverlap.dat" 修訂間的差異

出自 DDCC TCAD TOOL Manual
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This file save the electron and hole wave function overlap information. For the k.p solver. It has 6 bases. <math> \phi_{v1} </math> to <math> \phi_{v1} </math> are <math> |X+iY>~~ |X-iY>~~ |Z>~~ |Z>~~ |X-iY>~~ |X+iY> </math>. The electron is <math> \psi_{e} </math>. It shows the overlap of <math> \langle \psi_{e} | \phi_{V} \rangle </math>. It is a complex number.
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This file save the electron and hole wave function overlap information. For the k.p solver. It has 6 bases. <math> \phi_{v1} </math> to <math> \phi_{v6} </math> are <math> |X+iY>~~ |X-iY>~~ |Z>~~ |Z>~~ |X-iY>~~ |X+iY> </math>. The electron is <math> \psi_{e} </math>. It shows the overlap of <math> \langle \psi_{e} | \phi_{V} \rangle </math>. It is a complex number.
 
The format is
 
The format is
 
kx ky Ee_n Ev_m Efn Efp n m <math> \langle \psi_{e} | \phi_{v1} \rangle </math> <math> \langle \psi_{e} | \phi_{v2} \rangle </math> <math> \langle \psi_{e} | \phi_{v3} \rangle </math> <math> \langle \psi_{e} | \phi_{v4} \rangle </math> <math> \langle \psi_{e} | \phi_{v5} \rangle </math> <math> \langle \psi_{e} | \phi_{v6} \rangle </math>
 
kx ky Ee_n Ev_m Efn Efp n m <math> \langle \psi_{e} | \phi_{v1} \rangle </math> <math> \langle \psi_{e} | \phi_{v2} \rangle </math> <math> \langle \psi_{e} | \phi_{v3} \rangle </math> <math> \langle \psi_{e} | \phi_{v4} \rangle </math> <math> \langle \psi_{e} | \phi_{v5} \rangle </math> <math> \langle \psi_{e} | \phi_{v6} \rangle </math>
   
 
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Ee_n is the electron wave function of n_th state
 
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Ev_m is the hole wave function of m_th state
 
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Efn is the average electron fermi level
 
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Efv is the average electron fermi level
write(18,1371)akx,aky,Enofk(k,aindex),wfenkp(i,aindex),aveEfn(k,1),aveEfp(i,aindex),k,i , &
 
(wfcwvwoverlap(j,k,i,aindex),j=1,6)
 

於 2020年4月4日 (六) 10:28 的修訂

This file save the electron and hole wave function overlap information. For the k.p solver. It has 6 bases.  \phi_{v1} to  \phi_{v6} are  |X+iY>~~  |X-iY>~~  |Z>~~  |Z>~~  |X-iY>~~  |X+iY> . The electron is  \psi_{e} . It shows the overlap of   \langle \psi_{e} | \phi_{V} \rangle . It is a complex number. The format is

kx ky Ee_n Ev_m Efn Efp n m    \langle \psi_{e} | \phi_{v1} \rangle     \langle \psi_{e} | \phi_{v2} \rangle     \langle \psi_{e} | \phi_{v3} \rangle     \langle \psi_{e} | \phi_{v4} \rangle     \langle \psi_{e} | \phi_{v5} \rangle     \langle \psi_{e} | \phi_{v6} \rangle 
Ee_n is the electron wave function of n_th state
Ev_m is the hole wave function of m_th state
Efn is the average electron fermi level
Efv is the average electron fermi level