| /dports/science/jdftx/jdftx-1.6.0/jdftx/electronic/ |
| H A D | VanDerWaals.cpp | 33 inline double vdwPairEnergyAndGrad(double r, double C6, double R0, double& E_r, double ljOverride) in vdwPairEnergyAndGrad() argument
38 { E_r = 0.; in vdwPairEnergyAndGrad()
45 E_r = 6 * (C6*invr6) * invr * (R06*invr6 - 1.); in vdwPairEnergyAndGrad()
53 { E_r = 0.; in vdwPairEnergyAndGrad()
66 E_r = C6invr6_r * fdamp + C6invr6 * fdamp_r; in vdwPairEnergyAndGrad()
179 { double r = sqrt(rSq); double E_r = 0.; in energyAndGrad()
181 Etot -= cellWeight * scaleFac * vdwPairEnergyAndGrad(r, C6, R0, E_r, e->iInfo.ljOverride); in energyAndGrad()
182 vector3<> E_x = (cellWeight * scaleFac * E_r/r) * (e->gInfo.RTR * x); in energyAndGrad()
187 E_RRT -= (cellWeight * scaleFac * E_r/r) * outer(rVec, rVec); in energyAndGrad()
305 double r = rMin, rRatio = exp(dlogr), E_r; in getRadialFunction() local
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| /dports/science/pynn/PyNN-0.10.0/pyNN/neuron/nmodl/ |
| H A D | gsfa_grr.mod | 14 RANGE E_s, E_r, tau_s, tau_r
32 E_r = -70 (mV) : relative refractory period reversal potential
54 i = (0.001)*(g_r*(v-E_r) + g_s*(v-E_s))
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| /dports/science/py-gpaw/gpaw-21.6.0/gpaw/utilities/ |
| H A D | ewald.py | 78 E_r = 0.
85 E_r += erfc(self.G * lr) / lr
86 return E_r
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| /dports/science/py-OpenMC/openmc-0.12.2/src/ |
| H A D | reaction.cpp | 102 double E_r = grid[i_low + 1]; in collapse_rate() local
103 if (E_l == E_r) continue; in collapse_rate()
110 double E_high = std::min(E_group_high, E_r); in collapse_rate()
113 double m = (xs_r - xs_l) / (E_r - E_l); in collapse_rate()
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| /dports/science/openmc/openmc-0.12.2/src/ |
| H A D | reaction.cpp | 102 double E_r = grid[i_low + 1]; in collapse_rate() local
103 if (E_l == E_r) continue; in collapse_rate()
110 double E_high = std::min(E_group_high, E_r); in collapse_rate()
113 double m = (xs_r - xs_l) / (E_r - E_l); in collapse_rate()
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| /dports/science/py-OpenMC/openmc-0.12.2/openmc/data/ |
| H A D | reconstruct.pyx | 148 cdef double E_r, gt, gn, gg, gf, gx, P_r, S_r, P_rx
198 E_r = params[i_res, 0]
216 Eprime = E_r + (S_r - S)/(2*P_r)*gn # ENDF-102, Equation D.9
272 cdef double E_r, J, gt, gn, gg, gf, gx, P_r, S_r, P_rx
310 E_r = params[i_res, 0]
327 Eprime = E_r + (S_r - S)/(2*P_r)*gn # Equation D.9
377 cdef double E_r, gn, gg, gfa, gfb, P_r
452 E_r = params[i_res, 0]
463 factor = 0.5j/(E_r - E - 0.5j*gg)
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| /dports/science/openmc/openmc-0.12.2/openmc/data/ |
| H A D | reconstruct.pyx | 148 cdef double E_r, gt, gn, gg, gf, gx, P_r, S_r, P_rx
198 E_r = params[i_res, 0]
216 Eprime = E_r + (S_r - S)/(2*P_r)*gn # ENDF-102, Equation D.9
272 cdef double E_r, J, gt, gn, gg, gf, gx, P_r, S_r, P_rx
310 E_r = params[i_res, 0]
327 Eprime = E_r + (S_r - S)/(2*P_r)*gn # Equation D.9
377 cdef double E_r, gn, gg, gfa, gfb, P_r
452 E_r = params[i_res, 0]
463 factor = 0.5j/(E_r - E - 0.5j*gg)
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| /dports/devel/p5-libxml-enno/libxml-enno-1.02/bin/ |
| H A D | xql.pl | 130 $c =~ /[EN]/ and $E_r = 1;
221 elsif ($E_r)
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| /dports/textproc/p5-XML-XQL/XML-XQL-0.68/bin/ |
| H A D | xql.pl | 130 $c =~ /[EN]/ and $E_r = 1;
221 elsif ($E_r)
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| /dports/biology/protomol/protomol/doc/AngleHessian/ |
| H A D | hessian.tex | 344 \nabla_{\vec{r}}E_{\theta} \equiv - E_r = - E_{C} \,C_r
454 \frac{\mathrm{d} E_r}{\mathrm{d} r} \equiv E_{rr} = \overbrace{E_{C} \,C_{rr}}^{E_{rr}^a}
653 E_r= \left(\frac{6 \,B}{\AbsVr{ij}^{7}}-\frac{12
658 E_r= \left(\frac{6 \,B}{\AbsVr{ij}^{8}}-\frac{12
710 E_r = -\frac{\epsilon_{14} \, C\, q_i\, q_j}
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| /dports/science/py-OpenMC/openmc-0.12.2/docs/source/methods/ |
| H A D | energy_deposition.rst | 66 E_r\equiv E_{fr} + E_{n,p} + E_{n, d} + E_{\gamma, p}
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| /dports/science/openmc/openmc-0.12.2/docs/source/methods/ |
| H A D | energy_deposition.rst | 66 E_r\equiv E_{fr} + E_{n,p} + E_{n, d} + E_{\gamma, p}
|
| /dports/editors/fte/fte/config/ |
| H A D | m_xslt.fte | 336 key [C+E_r] { XSLT_Variable }
|
| /dports/math/gap/gap-4.11.0/pkg/homalg-2019.09.01/gap/ |
| H A D | HomalgSpectralSequence.gi | 817 function( r, B, a ) ## a could, for example, be the level where E_r becomes intrinsic
|
| /dports/math/gap/gap-4.11.0/pkg/quagroup-1.8.2/gap/ |
| H A D | multtab.g | 972 # The commutation relation is [ T_{u1u2}(E_r), T_{u1}(E_s) ],
984 # T_{u1u2}(E_r)T_{u1}(E_s) = q^{-(u2(a_r),a_s)}T_{u_1}(E_s)
985 # T_{u1u2}(E_r) + \sigma.
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| /dports/math/maxima/maxima-5.43.2/share/sym/ |
| H A D | docsym-en.tex | 132 Let $E_1, E_2, \ldots ,E_r$ be $r$ arbitrary sets. Denote by $D(E)$ the product
133 $E_1^{d_1}\times E_2^{d_2}\times \ldots \times E_r^{d_r}$.
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| H A D | docsym-fr.tex | 129 Soient $E_1, E_2, \ldots ,E_r$ $r$ ensembles quelconques.
130 Notons $D(E)$ le produit $E_1^{d_1}\times E_2^{d_2}\times \ldots \times E_r^{d_r}$
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| /dports/science/mcstas-comps/mcstas-comps-2.5-src/samples/ |
| H A D | Isotropic_Sqw.comp | 801 t_Table Sqw_moments[7]; /* M0=S(q) M1=E_r M3 w_c w_l M0_cl=S_cl(q) G(w) */
938 /* store moment values (q) as M0=S(q) M1=E_r M3 w_c w_l M0_cl=S_cl(q) */
1088 /* write all tables to disk M0=S(q) M1=E_r M3 w_c w_l M0_cl=S_cl(q) */
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| /dports/x11-wm/marco/marco-1.26.0/po/ |
| H A D | wa.po | 1452 msgstr "E_rôler"
|
| /dports/x11-wm/mutter/mutter-41.1/po/ |
| H A D | wa.po | 195 msgstr "E_rôler"
|
| /dports/x11-wm/metacity/metacity-3.42.0/po/ |
| H A D | wa.po | 195 msgstr "E_rôler"
|
| /dports/x11-wm/muffin/muffin-4.8.0/po/ |
| H A D | wa.po | 194 msgstr "E_rôler"
|
| /dports/textproc/opensearch-dashboards/opensearch-dashboards-1.2.0-linux-x64/plugins/anomalyDetectionDashboards/node_modules/prettier/esm/ |
| H A D | parser-flow.mjs | 22 …E_r=[0,[17,0,0],wB(kv)],F_r=[0,[12,59,[17,[0,wB(hd),1,0],0]],wB(Ik)],m_r=wB(Cr),k_r=[0,[18,[1,[0,0…
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| /dports/security/hashcat-legacy/hashcat-legacy-2.00/salts/ |
| H A D | brute-vbulletin.salt | 339993 E_r
|
| /dports/databases/py-mysql-connector-python/mysql-connector-python-8.0.27/tests/data/ |
| H A D | random_big_bin.csv | 8828 …�J�A�J�m@������*��A�rQ�k���@���F����,�p�{��Cf�,���߇i��8�݀E�����4iz���-0f��+������ �K9w�GS�Y0��E_r�
|