"Delta potential scattering"의 두 판 사이의 차이
imported>Pythagoras0 |
Pythagoras0 (토론 | 기여) |
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(사용자 2명의 중간 판 7개는 보이지 않습니다) | |||
16번째 줄: | 16번째 줄: | ||
* RHS becomes 0 | * RHS becomes 0 | ||
:<math>-A_r + A_l + B_r - B_l =\frac{2m\lambda}{ik\hbar^2}(A_r + A_l)</math> | :<math>-A_r + A_l + B_r - B_l =\frac{2m\lambda}{ik\hbar^2}(A_r + A_l)</math> | ||
− | * the | + | * the coefficients <math>A_r, A_l,B_r,B_l</math> must satisfy |
:<math> | :<math> | ||
\begin{cases} | \begin{cases} | ||
27번째 줄: | 27번째 줄: | ||
* special case of scattering problem <math>A_r=1, A_l=r, B_r=t , B_l = 0</math> | * special case of scattering problem <math>A_r=1, A_l=r, B_r=t , B_l = 0</math> | ||
− | * wave function | + | * wave function |
+ | :<math>\psi(x) = \begin{cases} \psi_{\mathrm L}(x) = e^{ikx} + re^{-ikx}, & \text{ if } x<0; \\ \psi_{\mathrm R}(x) =te^{ikx} , & \text{ if } x>0, \end{cases}</math> | ||
− | + | * <math>t-r=1</math> | |
+ | :<math>t=\cfrac{1}{1-\cfrac{m\lambda}{i\hbar^2k}}\,\!</math> | ||
+ | :<math>r=\cfrac{1}{\cfrac{i\hbar^2 k}{m\lambda} - 1}\,\!</math> | ||
+ | :<math>R=|r|^2=\cfrac{1}{1+\cfrac{\hbar^4k^2}{m^2\lambda^2}}= \cfrac{1}{1+\cfrac{2\hbar^2 E}{m\lambda^2}}.\,\!</math> | ||
+ | :<math>T=|t|^2=1-R=\cfrac{1}{1+\cfrac{m^2\lambda^2}{\hbar^4k^2}}= \cfrac{1}{1+\cfrac{m \lambda^2}{2\hbar^2 E}}\,\!</math> | ||
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==계산 리소스== | ==계산 리소스== | ||
* https://docs.google.com/file/d/0B8XXo8Tve1cxZjdDY3BfRFEwM0E/edit | * https://docs.google.com/file/d/0B8XXo8Tve1cxZjdDY3BfRFEwM0E/edit | ||
− | + | ||
==encyclopedia== | ==encyclopedia== | ||
45번째 줄: | 48번째 줄: | ||
[[분류:physics]] | [[분류:physics]] | ||
[[분류:math and physics]] | [[분류:math and physics]] | ||
− | [[분류: | + | [[분류:migrate]] |
+ | |||
+ | ==메타데이터== | ||
+ | ===위키데이터=== | ||
+ | * ID : [https://www.wikidata.org/wiki/Q2381860 Q2381860] | ||
+ | ===Spacy 패턴 목록=== | ||
+ | * [{'LOWER': 'delta'}, {'LEMMA': 'potential'}] |
2021년 2월 17일 (수) 02:30 기준 최신판
introduction
- Let the potential is given by
\[V(x) = \lambda\delta(x)\]
- wave function
\[\psi(x) = \begin{cases} \psi_{\mathrm L}(x) = A_{\mathrm r}e^{ikx} + A_{\mathrm l}e^{-ikx}, & \text{ if } x<0; \\ \psi_{\mathrm R}(x) = B_{\mathrm r}e^{ikx} + B_{\mathrm l}e^{-ikx}, & \text{ if } x>0, \end{cases}\]
- we impose two conditions on the wave function
- the wave function be continuous in the origin
- integrate the Schrödinger equation around x = 0, over an interval [−ε, +ε] and In the limit as ε → 0, the right-hand side of this equation vanishes; the left-hand side becomes
- first condition
\[\psi(0) =\psi_L(0) = \psi_R(0) = A_r + A_l = B_r + B_l\] \[A_r + A_l - B_r - B_l = 0\]
- second condition
\[ -\frac{\hbar^2}{2 m} \int_{-\epsilon}^{+\epsilon} \psi''(x) \,dx + \int_{-\epsilon}^{+\epsilon} V(x)\psi(x) \,dx = E \int_{-\epsilon}^{+\epsilon} \psi(x) \,dx\]
- LHS becomes \(-\frac{\hbar^2}{2m}[\psi_R'(0)-\psi_L'(0)] +\lambda\psi(0)\)
- RHS becomes 0
\[-A_r + A_l + B_r - B_l =\frac{2m\lambda}{ik\hbar^2}(A_r + A_l)\]
- the coefficients \(A_r, A_l,B_r,B_l\) must satisfy
\[ \begin{cases} A_r + A_l - B_r - B_l = 0 \\ -A_r + A_l + B_r - B_l =\frac{2m\lambda}{ik\hbar^2}(A_r + A_l) \end{cases} \]
delta potential scattering
- special case of scattering problem \(A_r=1, A_l=r, B_r=t , B_l = 0\)
- wave function
\[\psi(x) = \begin{cases} \psi_{\mathrm L}(x) = e^{ikx} + re^{-ikx}, & \text{ if } x<0; \\ \psi_{\mathrm R}(x) =te^{ikx} , & \text{ if } x>0, \end{cases}\]
- \(t-r=1\)
\[t=\cfrac{1}{1-\cfrac{m\lambda}{i\hbar^2k}}\,\!\] \[r=\cfrac{1}{\cfrac{i\hbar^2 k}{m\lambda} - 1}\,\!\] \[R=|r|^2=\cfrac{1}{1+\cfrac{\hbar^4k^2}{m^2\lambda^2}}= \cfrac{1}{1+\cfrac{2\hbar^2 E}{m\lambda^2}}.\,\!\] \[T=|t|^2=1-R=\cfrac{1}{1+\cfrac{m^2\lambda^2}{\hbar^4k^2}}= \cfrac{1}{1+\cfrac{m \lambda^2}{2\hbar^2 E}}\,\!\]
계산 리소스
encyclopedia
메타데이터
위키데이터
- ID : Q2381860
Spacy 패턴 목록
- [{'LOWER': 'delta'}, {'LEMMA': 'potential'}]