| /dports/www/py-protego/Protego-0.1.16/tests/test_data/ |
| H A D | www.schneider-electric.com | 77 Sitemap: https://www.schneider-electric.com/b2b/en/sitemap_work_b2b.xml
78 Sitemap: https://www.schneider-electric.com/b2b/fr/sitemap_work_b2b.xml
79 Sitemap: https://www.schneider-electric.com/google_map_en.xml
80 Sitemap: https://www.schneider-electric.com/google_map_fr.xml
84 Sitemap: https://www.schneider-electric.com/en/faqs/sitemap.xml
87 Sitemap: https://www.schneider-electric.com/en/product/google-product-sitemapindex-WW-en.xml
88 Sitemap: https://www.schneider-electric.com/en/product-range/google-range-sitemapindex-WW-en.xml
90 Sitemap: https://www.schneider-electric.com/en/product-range-download/google-range-download-sitemap…
91 Sitemap: https://www.schneider-electric.com/en/product-category/google-category-sitemapindex-WW-en.…
92 Sitemap: https://www.schneider-electric.com/en/product-subcategory/google-subcategory-sitemapindex-…
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| /dports/science/quantum-espresso/q-e-qe-6.7.0/PW/examples/example10/ |
| H A D | README | 3 finite electric field. The method is explained in:
14 If .TRUE. a homogeneous finite electric field
23 For calculations with finite electric fields
31 The same for calculation with finite electric fields
66 To perform a calculations with an electric field, an estimate of
67 the optimized wavefunctions is needed to build the electric field
75 The parameters GDIR defines the direction of the electric field.
105 the electric field must be given in Cartesian coordinates,
117 the electric field Hamiltonian depends self consistently on the
133 along the directions of the electric field: gdir=3,nppstr=7
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| /dports/science/openmx/openmx3.8/work/geoopt_example/ |
| H A D | TiO2_DIIS.out | 189 Uef: electric energy by electric field
262 Uef: electric energy by electric field
333 Uef: electric energy by electric field
403 Uef: electric energy by electric field
472 Uef: electric energy by electric field
540 Uef: electric energy by electric field
609 Uef: electric energy by electric field
678 Uef: electric energy by electric field
747 Uef: electric energy by electric field
813 Uef: electric energy by electric field
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| H A D | V2O5_DIIS.out | 204 Uef: electric energy by electric field
274 Uef: electric energy by electric field
348 Uef: electric energy by electric field
419 Uef: electric energy by electric field
488 Uef: electric energy by electric field
559 Uef: electric energy by electric field
632 Uef: electric energy by electric field
705 Uef: electric energy by electric field
778 Uef: electric energy by electric field
853 Uef: electric energy by electric field
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| H A D | Glycine_DIIS.out | 189 Uef: electric energy by electric field
262 Uef: electric energy by electric field
334 Uef: electric energy by electric field
406 Uef: electric energy by electric field
476 Uef: electric energy by electric field
547 Uef: electric energy by electric field
618 Uef: electric energy by electric field
689 Uef: electric energy by electric field
758 Uef: electric energy by electric field
828 Uef: electric energy by electric field
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| H A D | d-H2O_DIIS.out | 175 Uef: electric energy by electric field
242 Uef: electric energy by electric field
308 Uef: electric energy by electric field
373 Uef: electric energy by electric field
438 Uef: electric energy by electric field
502 Uef: electric energy by electric field
567 Uef: electric energy by electric field
632 Uef: electric energy by electric field
697 Uef: electric energy by electric field
761 Uef: electric energy by electric field
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| H A D | Glycine_BFGS.out | 189 Uef: electric energy by electric field
262 Uef: electric energy by electric field
334 Uef: electric energy by electric field
406 Uef: electric energy by electric field
476 Uef: electric energy by electric field
547 Uef: electric energy by electric field
618 Uef: electric energy by electric field
689 Uef: electric energy by electric field
758 Uef: electric energy by electric field
828 Uef: electric energy by electric field
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| H A D | Glycine_EF.out | 189 Uef: electric energy by electric field
262 Uef: electric energy by electric field
334 Uef: electric energy by electric field
406 Uef: electric energy by electric field
476 Uef: electric energy by electric field
547 Uef: electric energy by electric field
618 Uef: electric energy by electric field
689 Uef: electric energy by electric field
758 Uef: electric energy by electric field
828 Uef: electric energy by electric field
[all …]
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| H A D | SialicAcid_BFGS.out | 221 Uef: electric energy by electric field
302 Uef: electric energy by electric field
382 Uef: electric energy by electric field
456 Uef: electric energy by electric field
531 Uef: electric energy by electric field
606 Uef: electric energy by electric field
680 Uef: electric energy by electric field
755 Uef: electric energy by electric field
828 Uef: electric energy by electric field
902 Uef: electric energy by electric field
[all …]
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| H A D | SialicAcid_DIIS.out | 221 Uef: electric energy by electric field
302 Uef: electric energy by electric field
382 Uef: electric energy by electric field
456 Uef: electric energy by electric field
531 Uef: electric energy by electric field
606 Uef: electric energy by electric field
680 Uef: electric energy by electric field
755 Uef: electric energy by electric field
828 Uef: electric energy by electric field
902 Uef: electric energy by electric field
[all …]
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| H A D | Glycine_RF.out | 189 Uef: electric energy by electric field
262 Uef: electric energy by electric field
334 Uef: electric energy by electric field
406 Uef: electric energy by electric field
476 Uef: electric energy by electric field
547 Uef: electric energy by electric field
618 Uef: electric energy by electric field
689 Uef: electric energy by electric field
758 Uef: electric energy by electric field
828 Uef: electric energy by electric field
[all …]
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| H A D | d-H2O_EF.out | 175 Uef: electric energy by electric field
242 Uef: electric energy by electric field
308 Uef: electric energy by electric field
373 Uef: electric energy by electric field
438 Uef: electric energy by electric field
502 Uef: electric energy by electric field
567 Uef: electric energy by electric field
632 Uef: electric energy by electric field
697 Uef: electric energy by electric field
761 Uef: electric energy by electric field
[all …]
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| H A D | NaCl_DIIS.out | 172 Uef: electric energy by electric field
238 Uef: electric energy by electric field
304 Uef: electric energy by electric field
370 Uef: electric energy by electric field
436 Uef: electric energy by electric field
502 Uef: electric energy by electric field
566 Uef: electric energy by electric field
632 Uef: electric energy by electric field
697 Uef: electric energy by electric field
762 Uef: electric energy by electric field
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| H A D | NBen_DIIS.out | 202 Uef: electric energy by electric field
277 Uef: electric energy by electric field
351 Uef: electric energy by electric field
425 Uef: electric energy by electric field
498 Uef: electric energy by electric field
572 Uef: electric energy by electric field
645 Uef: electric energy by electric field
718 Uef: electric energy by electric field
791 Uef: electric energy by electric field
865 Uef: electric energy by electric field
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| H A D | TiO2_RF.out | 189 Uef: electric energy by electric field
262 Uef: electric energy by electric field
333 Uef: electric energy by electric field
403 Uef: electric energy by electric field
472 Uef: electric energy by electric field
540 Uef: electric energy by electric field
609 Uef: electric energy by electric field
678 Uef: electric energy by electric field
747 Uef: electric energy by electric field
813 Uef: electric energy by electric field
[all …]
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| H A D | TiO2_BFGS.out | 189 Uef: electric energy by electric field
262 Uef: electric energy by electric field
333 Uef: electric energy by electric field
403 Uef: electric energy by electric field
472 Uef: electric energy by electric field
540 Uef: electric energy by electric field
609 Uef: electric energy by electric field
678 Uef: electric energy by electric field
747 Uef: electric energy by electric field
813 Uef: electric energy by electric field
[all …]
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| H A D | NBen_BFGS.out | 202 Uef: electric energy by electric field
277 Uef: electric energy by electric field
351 Uef: electric energy by electric field
425 Uef: electric energy by electric field
498 Uef: electric energy by electric field
572 Uef: electric energy by electric field
645 Uef: electric energy by electric field
718 Uef: electric energy by electric field
791 Uef: electric energy by electric field
865 Uef: electric energy by electric field
[all …]
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| H A D | d-H2O_RF.out | 175 Uef: electric energy by electric field
242 Uef: electric energy by electric field
308 Uef: electric energy by electric field
373 Uef: electric energy by electric field
438 Uef: electric energy by electric field
502 Uef: electric energy by electric field
567 Uef: electric energy by electric field
632 Uef: electric energy by electric field
697 Uef: electric energy by electric field
761 Uef: electric energy by electric field
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| /dports/science/gromacs/gromacs-2021.4/docs/reference-manual/special/ |
| H A D | electric-fields.rst | 6 A pulsed and oscillating electric field can be applied according to:
16 :mdp:`electric-field-x` for more details.
19 ice \ :ref:`146 <refCaleman2008a>`. A pulsed electric field may look ike
21 of an applied electric field on a system under periodic boundary
22 conditions is analyzed. It is described that the effective electric
28 the simulation, this way of applying an electric field is not useful.
45 electric-field-x = 0.04 0 0 0
52 electric-field-x = 2.0 150 5 0
54 yields an oscillating electric field with :math:`E_0` = 2 V/nm,
59 electric-field-x = 2.0 150 5 1
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| /dports/multimedia/v4l_compat/linux-5.13-rc2/drivers/of/unittest-data/ |
| H A D | overlay_bad_add_dup_prop.dts | 6 * &electric_1/motor-1/electric and &spin_ctrl_1/electric are the same node:
7 * /testcase-data-2/substation@100/motor-1/electric
15 * level of node 'electric'. That resulted in the 'rpm_avail'
21 * enabled. Adding the overlay node 'electric' avoids the
29 electric {
36 electric {
|
| /dports/multimedia/libv4l/linux-5.13-rc2/drivers/of/unittest-data/ |
| H A D | overlay_bad_add_dup_prop.dts | 6 * &electric_1/motor-1/electric and &spin_ctrl_1/electric are the same node:
7 * /testcase-data-2/substation@100/motor-1/electric
15 * level of node 'electric'. That resulted in the 'rpm_avail'
21 * enabled. Adding the overlay node 'electric' avoids the
29 electric {
36 electric {
|
| /dports/multimedia/v4l-utils/linux-5.13-rc2/drivers/of/unittest-data/ |
| H A D | overlay_bad_add_dup_prop.dts | 6 * &electric_1/motor-1/electric and &spin_ctrl_1/electric are the same node:
7 * /testcase-data-2/substation@100/motor-1/electric
15 * level of node 'electric'. That resulted in the 'rpm_avail'
21 * enabled. Adding the overlay node 'electric' avoids the
29 electric {
36 electric {
|
| /dports/cad/csxcad/CSXCAD-0.6.2-103-g3c4fb66/matlab/ |
| H A D | AddLorentzMaterial.m | 11 % f_eps_plasma: the respective electric angular plasma frequency
13 % t_eps_r: the respective electric relaxation time
17 % 'EpsilonPlasmaFrequency': electric plasma frequency (f_eps_plasma)
19 % 'EpsilonRelaxTime': electric plasma relaxation time (losses)
25 % 'EpsilonPlasmaFrequency_<n>': n-th order electric plasma frequency (f_eps_plasma)
27 % 'EpsilonRelaxTime_<n>': n-th order electric plasma relaxation time (losses)
34 % f_eps_Lor_Pole: the respective electric angular lorentz pole frequency
38 % 'EpsilonLorPoleFrequency': electric lorentz pole frequency (f_eps_Lor_Pole)
44 % 'EpsilonLorPoleFrequency_<n>': n-th order electric lorentz pole frequency (f_eps_plasma)
|
| /dports/java/jaxen/jaxen-1.0-FCS/src/java/main/org/jaxen/exml/ |
| H A D | DocumentNavigator.java | 73 import electric.xml.Document;
74 import electric.xml.Element;
75 import electric.xml.Comment;
76 import electric.xml.Attribute;
77 import electric.xml.Text;
78 import electric.xml.CData;
79 import electric.xml.Instruction;
80 import electric.xml.Child;
81 import electric.xml.Children;
82 import electric.xml.Parent;
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| /dports/science/dalton/dalton-66052b3af5ea7225e31178bf9a8b031913c72190/DALTON/Doc/ |
| H A D | finitefield.tex | 5 dependence of these properties under an external electric
6 perturbation. This can be easily achieved by adding static electric
11 finite electric field calculations, and the following section
16 The presence of an external electric field can be modeled by adding a
19 and the external electric field:
24 where $\mathbf{d}_{e}$ is the electric dipole moment\index{dipole
37 The electric field dependence of different molecular properties are
103 the electric dipole operator\index{dipole moment},
105 electric dipole and the external electric field. This is achieved in
107 electric field\index{electric field!external} is signaled by the
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