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Model
Properties
Source
Used by
Included schema neoclassic.xsd
Namespace No namespace
Properties
attribute form default unqualified
element form default qualified
Element neoclassic
Namespace No namespace
Annotations
 
Neoclassical quantities (including transport coefficients). Time-dependent CPO
Diagram
Diagram utilities_xsd.tmp#datainfo neoclassic_xsd.tmp#neoclassic_rho_tor_norm neoclassic_xsd.tmp#neoclassic_rho_tor utilities_xsd.tmp#composition utilities_xsd.tmp#desc_impur neoclassic_xsd.tmp#neoclassic_compositions neoclassic_xsd.tmp#neoclassic_ni_neo neoclassic_xsd.tmp#neoclassic_ne_neo neoclassic_xsd.tmp#neoclassic_nz_neo neoclassic_xsd.tmp#neoclassic_ti_neo neoclassic_xsd.tmp#neoclassic_te_neo neoclassic_xsd.tmp#neoclassic_tz_neo neoclassic_xsd.tmp#neoclassic_mtor_neo neoclassic_xsd.tmp#neoclassic_sigma neoclassic_xsd.tmp#neoclassic_jboot neoclassic_xsd.tmp#neoclassic_er neoclassic_xsd.tmp#neoclassic_vpol neoclassic_xsd.tmp#neoclassic_vtor neoclassic_xsd.tmp#neoclassic_mach neoclassic_xsd.tmp#neoclassic_utheta_e neoclassic_xsd.tmp#neoclassic_utheta_i neoclassic_xsd.tmp#neoclassic_viscosity_par neoclassic_xsd.tmp#neoclassic_impurity neoclassic_xsd.tmp#neoclassic_fext neoclassic_xsd.tmp#neoclassic_jext neoclassic_xsd.tmp#neoclassic_time utilities_xsd.tmp#codeparam
Properties
content complex
Used by
Element top
Model
Children codeparam, composition, compositions, datainfo, desc_impur, er, fext, impurity, jboot, jext, mach, mtor_neo, ne_neo, ni_neo, nz_neo, rho_tor, rho_tor_norm, sigma, te_neo, ti_neo, time, tz_neo, utheta_e, utheta_i, viscosity_par, vpol, vtor
Instance
 
<neoclassic>
  <datainfo>{1,1}</datainfo>
  <rho_tor_norm>{1,1}</rho_tor_norm>
  <rho_tor>{1,1}</rho_tor>
  <composition>{1,1}</composition>
  <desc_impur>{1,1}</desc_impur>
  <compositions>{1,1}</compositions>
  <ni_neo>{1,1}</ni_neo>
  <ne_neo>{1,1}</ne_neo>
  <nz_neo>{0,unbounded}</nz_neo>
  <ti_neo>{1,1}</ti_neo>
  <te_neo>{1,1}</te_neo>
  <tz_neo>{0,unbounded}</tz_neo>
  <mtor_neo>{1,1}</mtor_neo>
  <sigma>{1,1}</sigma>
  <jboot>{1,1}</jboot>
  <er>{1,1}</er>
  <vpol>{1,1}</vpol>
  <vtor>{1,1}</vtor>
  <mach>{1,1}</mach>
  <utheta_e>{1,1}</utheta_e>
  <utheta_i>{1,1}</utheta_i>
  <viscosity_par>{1,1}</viscosity_par>
  <impurity>{0,unbounded}</impurity>
  <fext>{1,1}</fext>
  <jext>{1,1}</jext>
  <time>{1,1}</time>
  <codeparam>{1,1}</codeparam>
</neoclassic>
Source
 
<xs:element name="neoclassic">
  <xs:annotation>
    <xs:documentation>Neoclassical quantities (including transport coefficients). Time-dependent CPO</xs:documentation>
  </xs:annotation>
  <xs:complexType>
    <xs:sequence>
      <xs:element ref="datainfo"/>
      <xs:element name="rho_tor_norm" type="vecflt_type" default="[0.0,0.0]">
        <xs:annotation>
          <xs:documentation>Normalised toroidal flux coordinate values (= rho_tor normalised to the value at the last grid point); Vector (nrho)</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="rho_tor" type="vecflt_type">
        <xs:annotation>
          <xs:documentation>Toroidal flux coordinate (not normalised, equivalent to rho_tor_norm) [m]; Vector (nrho). Time-dependent.</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element ref="composition"/>
      <xs:element ref="desc_impur"/>
      <xs:element name="compositions" type="compositions_type">
        <xs:annotation>
          <xs:documentation>Contains all the composition information for the simulation (main ions, impurities, neutrals, edge species).</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="ni_neo" type="transcoefion">
        <xs:annotation>
          <xs:documentation>Neoclassical transport coefficients for ion density equation. Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="ne_neo" type="transcoefel">
        <xs:annotation>
          <xs:documentation>Neoclassical transport coefficients for electron density equation. Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="nz_neo" type="transcoefimp" minOccurs="0" maxOccurs="unbounded">
        <xs:annotation>
          <xs:documentation>Neoclassical transport coefficients for impurity (multiple charge state) density equation. Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="ti_neo" type="transcoefion">
        <xs:annotation>
          <xs:documentation>Neoclassical transport coefficients for ion temperature equation. Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="te_neo" type="transcoefel">
        <xs:annotation>
          <xs:documentation>Neoclassical transport coefficients for electron temperature equation. Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="tz_neo" type="transcoefimp" minOccurs="0" maxOccurs="unbounded">
        <xs:annotation>
          <xs:documentation>Neoclassical transport coefficients for impurity (multiple charge state) temperature equation. Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="mtor_neo" type="transcoefel">
        <xs:annotation>
          <xs:documentation>Neoclassical transport coefficients for total toroidal momentum equation. Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="sigma" type="vecflt_type">
        <xs:annotation>
          <xs:documentation>Neoclassical conductivity [ohm^-1.m^-1]. Time-dependent. Vector(nrho).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="jboot" type="vecflt_type">
        <xs:annotation>
          <xs:documentation>Bootstrap current density [A.m^-2]. Time-dependent. Vector(nrho).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="er" type="vecflt_type">
        <xs:annotation>
          <xs:documentation>Radial electric field [V/m]. Time-dependent. Vector(nrho).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="vpol" type="matflt_type">
        <xs:annotation>
          <xs:documentation>Neoclassical poloidal rotation of each ion species [m/s]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="vtor" type="matflt_type">
        <xs:annotation>
          <xs:documentation>Neoclassical toroidal rotation of each ion species [m/s]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="mach" type="matflt_type">
        <xs:annotation>
          <xs:documentation>Mach number of each ion species. Time-dependent. Matrix(nrho,nion).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="utheta_e" type="vecflt_type">
        <xs:annotation>
          <xs:documentation>Electron poloidal flow [m/s]. Time-dependent. Vector(nrho).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="utheta_i" type="matflt_type">
        <xs:annotation>
          <xs:documentation>Ion poloidal flow [m/s]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="viscosity_par" type="matflt_type">
        <xs:annotation>
          <xs:documentation>Ion parallel viscosity [?]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="impurity" type="neoclassic_impurity" minOccurs="0" maxOccurs="unbounded">
        <xs:annotation>
          <xs:documentation>Array(nimp). Time-dependent</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="fext" type="array3dflt_type">
        <xs:annotation>
          <xs:documentation>Moments of parallel external force on each ion species [T.J.m^-3]. Time-dependent. Array3D(nrho,nion,nmoment).</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="jext" type="vecflt_type">
        <xs:annotation>
          <xs:documentation>Current density response to fext [A.m^-2]. Time-dependent. Vector(nrho).</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="time" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>Time [s]; Time-dependent; Scalar.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element ref="codeparam"/>
    </xs:sequence>
  </xs:complexType>
</xs:element>
Element neoclassic / rho_tor_norm
Namespace No namespace
Annotations
 
Normalised toroidal flux coordinate values (= rho_tor normalised to the value at the last grid point); Vector (nrho)
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
default [0.0,0.0]
final restriction
Source
 
<xs:element name="rho_tor_norm" type="vecflt_type" default="[0.0,0.0]">
  <xs:annotation>
    <xs:documentation>Normalised toroidal flux coordinate values (= rho_tor normalised to the value at the last grid point); Vector (nrho)</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / rho_tor
Namespace No namespace
Annotations
 
Toroidal flux coordinate (not normalised, equivalent to rho_tor_norm) [m]; Vector (nrho). Time-dependent.
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="rho_tor" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Toroidal flux coordinate (not normalised, equivalent to rho_tor_norm) [m]; Vector (nrho). Time-dependent.</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / compositions
Namespace No namespace
Annotations
 
Contains all the composition information for the simulation (main ions, impurities, neutrals, edge species).
Diagram
Diagram utilities_xsd.tmp#compositions_type_nuclei utilities_xsd.tmp#compositions_type_ions utilities_xsd.tmp#compositions_type_impurities utilities_xsd.tmp#compositions_type_neutralscomp utilities_xsd.tmp#compositions_type_edgespecies utilities_xsd.tmp#compositions_type_signature utilities_xsd.tmp#compositions_type
Type compositions_type
Properties
content complex
Model
Children edgespecies, impurities, ions, neutralscomp, nuclei, signature
Instance
 
<compositions>
  <nuclei>{1,unbounded}</nuclei>
  <ions>{1,unbounded}</ions>
  <impurities>{0,unbounded}</impurities>
  <neutralscomp>{0,unbounded}</neutralscomp>
  <edgespecies>{0,unbounded}</edgespecies>
  <signature>{1,1}</signature>
</compositions>
Source
 
<xs:element name="compositions" type="compositions_type">
  <xs:annotation>
    <xs:documentation>Contains all the composition information for the simulation (main ions, impurities, neutrals, edge species).</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / ni_neo
Namespace No namespace
Annotations
 
Neoclassical transport coefficients for ion density equation. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#transcoefion_diff_eff utilities_xsd.tmp#transcoefion_vconv_eff utilities_xsd.tmp#transcoefion_exchange utilities_xsd.tmp#transcoefion_qgi utilities_xsd.tmp#transcoefion_flux utilities_xsd.tmp#transcoefion_off_diagonal utilities_xsd.tmp#transcoefion_flag utilities_xsd.tmp#transcoefion
Type transcoefion
Properties
content complex
Model
Children diff_eff, exchange, flag, flux, off_diagonal, qgi, vconv_eff
Instance
 
<ni_neo>
  <diff_eff>{1,1}</diff_eff>
  <vconv_eff>{1,1}</vconv_eff>
  <exchange>{1,1}</exchange>
  <qgi>{1,1}</qgi>
  <flux>{1,1}</flux>
  <off_diagonal>{1,1}</off_diagonal>
  <flag>{1,1}</flag>
</ni_neo>
Source
 
<xs:element name="ni_neo" type="transcoefion">
  <xs:annotation>
    <xs:documentation>Neoclassical transport coefficients for ion density equation. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / ne_neo
Namespace No namespace
Annotations
 
Neoclassical transport coefficients for electron density equation. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#transcoefel_diff_eff utilities_xsd.tmp#transcoefel_vconv_eff utilities_xsd.tmp#transcoefel_flux utilities_xsd.tmp#transcoefel_off_diagonal utilities_xsd.tmp#transcoefel_flag utilities_xsd.tmp#transcoefel
Type transcoefel
Properties
content complex
Model
Children diff_eff, flag, flux, off_diagonal, vconv_eff
Instance
 
<ne_neo>
  <diff_eff>{1,1}</diff_eff>
  <vconv_eff>{1,1}</vconv_eff>
  <flux>{1,1}</flux>
  <off_diagonal>{1,1}</off_diagonal>
  <flag>{1,1}</flag>
</ne_neo>
Source
 
<xs:element name="ne_neo" type="transcoefel">
  <xs:annotation>
    <xs:documentation>Neoclassical transport coefficients for electron density equation. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / nz_neo
Namespace No namespace
Annotations
 
Neoclassical transport coefficients for impurity (multiple charge state) density equation. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#transcoefimp_diff_eff utilities_xsd.tmp#transcoefimp_vconv_eff utilities_xsd.tmp#transcoefimp_exchange utilities_xsd.tmp#transcoefimp_flux utilities_xsd.tmp#transcoefimp_flag utilities_xsd.tmp#transcoefimp
Type transcoefimp
Properties
content complex
minOccurs 0
maxOccurs unbounded
Model
Children diff_eff, exchange, flag, flux, vconv_eff
Instance
 
<nz_neo>
  <diff_eff>{1,1}</diff_eff>
  <vconv_eff>{1,1}</vconv_eff>
  <exchange>{1,1}</exchange>
  <flux>{1,1}</flux>
  <flag>{1,1}</flag>
</nz_neo>
Source
 
<xs:element name="nz_neo" type="transcoefimp" minOccurs="0" maxOccurs="unbounded">
  <xs:annotation>
    <xs:documentation>Neoclassical transport coefficients for impurity (multiple charge state) density equation. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / ti_neo
Namespace No namespace
Annotations
 
Neoclassical transport coefficients for ion temperature equation. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#transcoefion_diff_eff utilities_xsd.tmp#transcoefion_vconv_eff utilities_xsd.tmp#transcoefion_exchange utilities_xsd.tmp#transcoefion_qgi utilities_xsd.tmp#transcoefion_flux utilities_xsd.tmp#transcoefion_off_diagonal utilities_xsd.tmp#transcoefion_flag utilities_xsd.tmp#transcoefion
Type transcoefion
Properties
content complex
Model
Children diff_eff, exchange, flag, flux, off_diagonal, qgi, vconv_eff
Instance
 
<ti_neo>
  <diff_eff>{1,1}</diff_eff>
  <vconv_eff>{1,1}</vconv_eff>
  <exchange>{1,1}</exchange>
  <qgi>{1,1}</qgi>
  <flux>{1,1}</flux>
  <off_diagonal>{1,1}</off_diagonal>
  <flag>{1,1}</flag>
</ti_neo>
Source
 
<xs:element name="ti_neo" type="transcoefion">
  <xs:annotation>
    <xs:documentation>Neoclassical transport coefficients for ion temperature equation. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / te_neo
Namespace No namespace
Annotations
 
Neoclassical transport coefficients for electron temperature equation. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#transcoefel_diff_eff utilities_xsd.tmp#transcoefel_vconv_eff utilities_xsd.tmp#transcoefel_flux utilities_xsd.tmp#transcoefel_off_diagonal utilities_xsd.tmp#transcoefel_flag utilities_xsd.tmp#transcoefel
Type transcoefel
Properties
content complex
Model
Children diff_eff, flag, flux, off_diagonal, vconv_eff
Instance
 
<te_neo>
  <diff_eff>{1,1}</diff_eff>
  <vconv_eff>{1,1}</vconv_eff>
  <flux>{1,1}</flux>
  <off_diagonal>{1,1}</off_diagonal>
  <flag>{1,1}</flag>
</te_neo>
Source
 
<xs:element name="te_neo" type="transcoefel">
  <xs:annotation>
    <xs:documentation>Neoclassical transport coefficients for electron temperature equation. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / tz_neo
Namespace No namespace
Annotations
 
Neoclassical transport coefficients for impurity (multiple charge state) temperature equation. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#transcoefimp_diff_eff utilities_xsd.tmp#transcoefimp_vconv_eff utilities_xsd.tmp#transcoefimp_exchange utilities_xsd.tmp#transcoefimp_flux utilities_xsd.tmp#transcoefimp_flag utilities_xsd.tmp#transcoefimp
Type transcoefimp
Properties
content complex
minOccurs 0
maxOccurs unbounded
Model
Children diff_eff, exchange, flag, flux, vconv_eff
Instance
 
<tz_neo>
  <diff_eff>{1,1}</diff_eff>
  <vconv_eff>{1,1}</vconv_eff>
  <exchange>{1,1}</exchange>
  <flux>{1,1}</flux>
  <flag>{1,1}</flag>
</tz_neo>
Source
 
<xs:element name="tz_neo" type="transcoefimp" minOccurs="0" maxOccurs="unbounded">
  <xs:annotation>
    <xs:documentation>Neoclassical transport coefficients for impurity (multiple charge state) temperature equation. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / mtor_neo
Namespace No namespace
Annotations
 
Neoclassical transport coefficients for total toroidal momentum equation. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#transcoefel_diff_eff utilities_xsd.tmp#transcoefel_vconv_eff utilities_xsd.tmp#transcoefel_flux utilities_xsd.tmp#transcoefel_off_diagonal utilities_xsd.tmp#transcoefel_flag utilities_xsd.tmp#transcoefel
Type transcoefel
Properties
content complex
Model
Children diff_eff, flag, flux, off_diagonal, vconv_eff
Instance
 
<mtor_neo>
  <diff_eff>{1,1}</diff_eff>
  <vconv_eff>{1,1}</vconv_eff>
  <flux>{1,1}</flux>
  <off_diagonal>{1,1}</off_diagonal>
  <flag>{1,1}</flag>
</mtor_neo>
Source
 
<xs:element name="mtor_neo" type="transcoefel">
  <xs:annotation>
    <xs:documentation>Neoclassical transport coefficients for total toroidal momentum equation. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / sigma
Namespace No namespace
Annotations
 
Neoclassical conductivity [ohm^-1.m^-1]. Time-dependent. Vector(nrho).
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="sigma" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Neoclassical conductivity [ohm^-1.m^-1]. Time-dependent. Vector(nrho).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / jboot
Namespace No namespace
Annotations
 
Bootstrap current density [A.m^-2]. Time-dependent. Vector(nrho).
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="jboot" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Bootstrap current density [A.m^-2]. Time-dependent. Vector(nrho).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / er
Namespace No namespace
Annotations
 
Radial electric field [V/m]. Time-dependent. Vector(nrho).
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="er" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Radial electric field [V/m]. Time-dependent. Vector(nrho).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / vpol
Namespace No namespace
Annotations
 
Neoclassical poloidal rotation of each ion species [m/s]. Time-dependent. Matrix(nrho,nion).
Diagram
Diagram utilities_xsd.tmp#matflt_type
Type matflt_type
Properties
content simple
Source
 
<xs:element name="vpol" type="matflt_type">
  <xs:annotation>
    <xs:documentation>Neoclassical poloidal rotation of each ion species [m/s]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / vtor
Namespace No namespace
Annotations
 
Neoclassical toroidal rotation of each ion species [m/s]. Time-dependent. Matrix(nrho,nion).
Diagram
Diagram utilities_xsd.tmp#matflt_type
Type matflt_type
Properties
content simple
Source
 
<xs:element name="vtor" type="matflt_type">
  <xs:annotation>
    <xs:documentation>Neoclassical toroidal rotation of each ion species [m/s]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / mach
Namespace No namespace
Annotations
 
Mach number of each ion species. Time-dependent. Matrix(nrho,nion).
Diagram
Diagram utilities_xsd.tmp#matflt_type
Type matflt_type
Properties
content simple
Source
 
<xs:element name="mach" type="matflt_type">
  <xs:annotation>
    <xs:documentation>Mach number of each ion species. Time-dependent. Matrix(nrho,nion).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / utheta_e
Namespace No namespace
Annotations
 
Electron poloidal flow [m/s]. Time-dependent. Vector(nrho).
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="utheta_e" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Electron poloidal flow [m/s]. Time-dependent. Vector(nrho).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / utheta_i
Namespace No namespace
Annotations
 
Ion poloidal flow [m/s].  Time-dependent. Matrix(nrho,nion).
Diagram
Diagram utilities_xsd.tmp#matflt_type
Type matflt_type
Properties
content simple
Source
 
<xs:element name="utheta_i" type="matflt_type">
  <xs:annotation>
    <xs:documentation>Ion poloidal flow [m/s]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / viscosity_par
Namespace No namespace
Annotations
 
Ion parallel viscosity [?].  Time-dependent. Matrix(nrho,nion).
Diagram
Diagram utilities_xsd.tmp#matflt_type
Type matflt_type
Properties
content simple
Source
 
<xs:element name="viscosity_par" type="matflt_type">
  <xs:annotation>
    <xs:documentation>Ion parallel viscosity [?]. Time-dependent. Matrix(nrho,nion).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / impurity
Namespace No namespace
Annotations
 
Array(nimp). Time-dependent
Diagram
Diagram neoclassic_xsd.tmp#NO_NAMESPACE_neoclassic_impurity_utheta_z neoclassic_xsd.tmp#NO_NAMESPACE_neoclassic_impurity
Type neoclassic_impurity
Properties
content complex
minOccurs 0
maxOccurs unbounded
Model
Children utheta_z
Instance
 
<impurity>
  <utheta_z>{1,1}</utheta_z>
</impurity>
Source
 
<xs:element name="impurity" type="neoclassic_impurity" minOccurs="0" maxOccurs="unbounded">
  <xs:annotation>
    <xs:documentation>Array(nimp). Time-dependent</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic_impurity / utheta_z
Namespace No namespace
Annotations
 
Ion poloidal flow for various charge states [m/s].  Time-dependent. Matrix(nrho,nzimp).
Diagram
Diagram utilities_xsd.tmp#matflt_type
Type matflt_type
Properties
content simple
Source
 
<xs:element name="utheta_z" type="matflt_type">
  <xs:annotation>
    <xs:documentation>Ion poloidal flow for various charge states [m/s]. Time-dependent. Matrix(nrho,nzimp).</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element neoclassic / fext
Namespace No namespace
Annotations
 
Moments of parallel external force on each ion species [T.J.m^-3]. Time-dependent. Array3D(nrho,nion,nmoment).
Diagram
Diagram utilities_xsd.tmp#array3dflt_type
Type array3dflt_type
Properties
content simple
Source
 
<xs:element name="fext" type="array3dflt_type">
  <xs:annotation>
    <xs:documentation>Moments of parallel external force on each ion species [T.J.m^-3]. Time-dependent. Array3D(nrho,nion,nmoment).</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / jext
Namespace No namespace
Annotations
 
Current density response to fext [A.m^-2]. Time-dependent. Vector(nrho).
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="jext" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Current density response to fext [A.m^-2]. Time-dependent. Vector(nrho).</xs:documentation>
  </xs:annotation>
</xs:element>
Element neoclassic / time
Namespace No namespace
Annotations
 
Time [s]; Time-dependent; Scalar.
Diagram
Diagram
Type xs:float
Properties
content simple
default 0.0
Source
 
<xs:element name="time" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>Time [s]; Time-dependent; Scalar.</xs:documentation>
  </xs:annotation>
</xs:element>
Complex Type neoclassic_impurity
Namespace No namespace
Diagram
Diagram neoclassic_xsd.tmp#NO_NAMESPACE_neoclassic_impurity_utheta_z
Used by
Model
Children utheta_z
Source
 
<xs:complexType name="neoclassic_impurity">
  <xs:sequence>
    <xs:element name="utheta_z" type="matflt_type">
      <xs:annotation>
        <xs:documentation>Ion poloidal flow for various charge states [m/s]. Time-dependent. Matrix(nrho,nzimp).</xs:documentation>
        <xs:appinfo>experimental</xs:appinfo>
      </xs:annotation>
    </xs:element>
  </xs:sequence>
</xs:complexType>
XML Schema documentation generated by ® XML Editor.