test (Q16): Difference between revisions
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Changed claim: defining formula (P29): \begin{align} \frac{\mathrm d}{\mathrm d z} \psi_\mathbf{g}(z) &= 2\mathrm{i} \pi s_\mathbf{g} \psi_\mathbf{g}(z)+ \frac{\mathrm{i} \pi}{\rho_\mathbf{g}}\sum_{\mathbf{h}\in \Lambda^*_m} U_{\mathbf{g-h}}\psi_\mathbf{h}(z)\\ \quad s_g &= -\frac{g\cdot(2k_0+g)}{2n\cdot(k_0+g)} \end{align} |
Changed claim: defining formula (P29): \begin{align} \frac{\partial\mathbf{y}}{\partial t} &= G \left(\mathbf{y}, V^{\text{f}}_{\text{m}} \right) \\ I_{\text{ion}} &= I_{\text{ion}} \left(V^{\text{f}}_{\text{m}}, \mathbf{y}\right) \end{align} |
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| Property / defining formula | Property / defining formula | ||
\begin{align} \frac{\mathrm d}{\mathrm d z} \psi_\mathbf{g}(z) &= 2\mathrm{i} \pi s_\mathbf{g} \psi_\mathbf{g}(z)+ \frac{\mathrm{i} \pi}{\rho_\mathbf{g}}\sum_{\mathbf{h}\in \Lambda^*_m} U_{\mathbf{g-h}}\psi_\mathbf{h}(z)\\ \quad s_g &= -\frac{g\cdot(2k_0+g)}{2n\cdot(k_0+g)} \end{align} | \begin{align} \frac{\partial\mathbf{y}}{\partial t} &= G \left(\mathbf{y}, V^{\text{f}}_{\text{m}} \right) \\ I_{\text{ion}} &= I_{\text{ion}} \left(V^{\text{f}}_{\text{m}}, \mathbf{y}\right) \end{align} | ||
Revision as of 09:58, 24 February 2025
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| Language | Label | Description | Also known as |
|---|---|---|---|
| English | test |
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Statements
1 January 1970
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