Showing:

Annotations
Diagrams
Instances
Model
Properties
Source
Used by
Included schema coresource.xsd
Namespace No namespace
Properties
attribute form default unqualified
element form default qualified
Element coresource
Namespace No namespace
Annotations
 
Generic source term for the core transport equations (radial profile). Time-dependent CPO.
Diagram
Diagram utilities_xsd.tmp#datainfo utilities_xsd.tmp#composition utilities_xsd.tmp#desc_impur coresource_xsd.tmp#coresource_compositions coresource_xsd.tmp#coresource_toroid_field coresource_xsd.tmp#coresource_values utilities_xsd.tmp#codeparam coresource_xsd.tmp#coresource_time
Properties
content complex
Used by
Element top
Model
Children codeparam, composition, compositions, datainfo, desc_impur, time, toroid_field, values
Instance
 
<coresource>
  <datainfo>{1,1}</datainfo>
  <composition>{1,1}</composition>
  <desc_impur>{1,1}</desc_impur>
  <compositions>{1,1}</compositions>
  <toroid_field>{1,1}</toroid_field>
  <values>{1,unbounded}</values>
  <codeparam>{1,1}</codeparam>
  <time>{1,1}</time>
</coresource>
Source
 
<xs:element name="coresource">
  <xs:annotation>
    <xs:documentation>Generic source term for the core transport equations (radial profile). Time-dependent CPO.</xs:documentation>
  </xs:annotation>
  <xs:complexType>
    <xs:sequence>
      <xs:element ref="datainfo"/>
      <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="toroid_field" type="b0r0">
        <xs:annotation>
          <xs:documentation>Characteristics of the vacuum toroidal field, redundant with the toroidfield CPO, to document the normalisation of rho and j in this CPO.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="values" type="coresource_values" maxOccurs="unbounded">
        <xs:annotation>
          <xs:documentation>Description of the source terms of various origins. Array of structure (nsource). Time-dependent.</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element ref="codeparam"/>
      <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:sequence>
  </xs:complexType>
</xs:element>
Element coresource / 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 coresource / toroid_field
Namespace No namespace
Annotations
 
Characteristics of the vacuum toroidal field, redundant with the toroidfield CPO, to document the normalisation of rho and j in this CPO.
Diagram
Diagram utilities_xsd.tmp#b0r0_r0 utilities_xsd.tmp#b0r0_b0 utilities_xsd.tmp#b0r0
Type b0r0
Properties
content complex
Model
r0 , b0
Children b0, r0
Instance
 
<toroid_field>
  <r0>{1,1}</r0>
  <b0>{1,1}</b0>
</toroid_field>
Source
 
<xs:element name="toroid_field" type="b0r0">
  <xs:annotation>
    <xs:documentation>Characteristics of the vacuum toroidal field, redundant with the toroidfield CPO, to document the normalisation of rho and j in this CPO.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource / values
Namespace No namespace
Annotations
 
Description of the source terms of various origins. Array of structure (nsource). Time-dependent.
Diagram
Diagram coresource_xsd.tmp#NO_NAMESPACE_coresource_values_sourceid coresource_xsd.tmp#NO_NAMESPACE_coresource_values_rho_tor coresource_xsd.tmp#NO_NAMESPACE_coresource_values_rho_tor_norm coresource_xsd.tmp#NO_NAMESPACE_coresource_values_psi coresource_xsd.tmp#NO_NAMESPACE_coresource_values_volume coresource_xsd.tmp#NO_NAMESPACE_coresource_values_area coresource_xsd.tmp#NO_NAMESPACE_coresource_values_j coresource_xsd.tmp#NO_NAMESPACE_coresource_values_sigma coresource_xsd.tmp#NO_NAMESPACE_coresource_values_si coresource_xsd.tmp#NO_NAMESPACE_coresource_values_se coresource_xsd.tmp#NO_NAMESPACE_coresource_values_sz coresource_xsd.tmp#NO_NAMESPACE_coresource_values_qi coresource_xsd.tmp#NO_NAMESPACE_coresource_values_qe coresource_xsd.tmp#NO_NAMESPACE_coresource_values_qz coresource_xsd.tmp#NO_NAMESPACE_coresource_values_ui coresource_xsd.tmp#NO_NAMESPACE_coresource_values_ujxb utilities_xsd.tmp#codeparam coresource_xsd.tmp#NO_NAMESPACE_coresource_values
Type coresource_values
Properties
content complex
maxOccurs unbounded
Model
Children area, codeparam, j, psi, qe, qi, qz, rho_tor, rho_tor_norm, se, si, sigma, sourceid, sz, ui, ujxb, volume
Instance
 
<values>
  <sourceid>{1,1}</sourceid>
  <rho_tor>{1,1}</rho_tor>
  <rho_tor_norm>{1,1}</rho_tor_norm>
  <psi>{1,1}</psi>
  <volume>{1,1}</volume>
  <area>{1,1}</area>
  <j>{1,1}</j>
  <sigma>{1,1}</sigma>
  <si>{1,1}</si>
  <se>{1,1}</se>
  <sz>{0,unbounded}</sz>
  <qi>{1,1}</qi>
  <qe>{1,1}</qe>
  <qz>{0,unbounded}</qz>
  <ui>{1,1}</ui>
  <ujxb>{1,1}</ujxb>
  <codeparam>{1,1}</codeparam>
</values>
Source
 
<xs:element name="values" type="coresource_values" maxOccurs="unbounded">
  <xs:annotation>
    <xs:documentation>Description of the source terms of various origins. Array of structure (nsource). Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / sourceid
Namespace No namespace
Annotations
 
Identifier for the origin of the source terms (see conventions in the ITM website)
Diagram
Diagram utilities_xsd.tmp#identifier_id utilities_xsd.tmp#identifier_flag utilities_xsd.tmp#identifier_description utilities_xsd.tmp#identifier
Type identifier
Properties
content complex
Model
Children description, flag, id
Instance
 
<sourceid>
  <id>{1,1}</id>
  <flag>{1,1}</flag>
  <description>{1,1}</description>
</sourceid>
Source
 
<xs:element name="sourceid" type="identifier">
  <xs:annotation>
    <xs:documentation>Identifier for the origin of the source terms (see conventions in the ITM website)</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / 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 coresource_values / rho_tor_norm
Namespace No namespace
Annotations
 
Normalised toroidal flux coordinate values (= rho_tor normalised to the value at the last grid point);  Time-dependent; 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); Time-dependent; Vector (nrho)</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element coresource_values / psi
Namespace No namespace
Annotations
 
Poloidal flux [Wb], without 1/2pi and such that Bp=|grad psi| /R/2/pi. Time-dependent; Vector (nrho)
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="psi" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Poloidal flux [Wb], without 1/2pi and such that Bp=|grad psi| /R/2/pi. Time-dependent; Vector (nrho)</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / volume
Namespace No namespace
Annotations
 
Volume enclosed in the flux surface [m^3]; Time-dependent; Vector (nrho)
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="volume" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Volume enclosed in the flux surface [m^3]; Time-dependent; Vector (nrho)</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / area
Namespace No namespace
Annotations
 
Cross-sectional area of the flux surface [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="area" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Cross-sectional area of the flux surface [m^2]; Time-dependent; Vector (nrho)</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / j
Namespace No namespace
Annotations
 
Parallel current source for psi transport equation, = average(j.B) / B0, where B0 = coresource/toroid_field/b0 [A.m^-2]. Vector(nrho). Time-dependent.
Diagram
Diagram utilities_xsd.tmp#vecflt_type
Type vecflt_type
Properties
content simple
final restriction
Source
 
<xs:element name="j" type="vecflt_type">
  <xs:annotation>
    <xs:documentation>Parallel current source for psi transport equation, = average(j.B) / B0, where B0 = coresource/toroid_field/b0 [A.m^-2]. Vector(nrho). Time-dependent.</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>
Element coresource_values / sigma
Namespace No namespace
Annotations
 
Induced parallel conductivity [ohm^-1.m^-1]. EXACT DEFINITION PENDING. Vector(nrho). Time-dependent.
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>Induced parallel conductivity [ohm^-1.m^-1]. EXACT DEFINITION PENDING. Vector(nrho). Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / si
Namespace No namespace
Annotations
 
Particle source for ion density transport equation [m^-3.s^-1]. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_ion_exp utilities_xsd.tmp#source_ion_imp utilities_xsd.tmp#source_ion
Type source_ion
Properties
content complex
Model
Children exp, imp
Instance
 
<si>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</si>
Source
 
<xs:element name="si" type="source_ion">
  <xs:annotation>
    <xs:documentation>Particle source for ion density transport equation [m^-3.s^-1]. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / se
Namespace No namespace
Annotations
 
Particle source for electron density transport equation [m^-3.s^-1]. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_vec_exp utilities_xsd.tmp#source_vec_imp utilities_xsd.tmp#source_vec
Type source_vec
Properties
content complex
Model
Children exp, imp
Instance
 
<se>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</se>
Source
 
<xs:element name="se" type="source_vec">
  <xs:annotation>
    <xs:documentation>Particle source for electron density transport equation [m^-3.s^-1]. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / sz
Namespace No namespace
Annotations
 
Particle source for impurity density transport equation [m^-3.s^-1]. Vector(nimpur). Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_imp_exp utilities_xsd.tmp#source_imp_imp utilities_xsd.tmp#source_imp
Type source_imp
Properties
content complex
minOccurs 0
maxOccurs unbounded
Model
Children exp, imp
Instance
 
<sz>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</sz>
Source
 
<xs:element name="sz" type="source_imp" minOccurs="0" maxOccurs="unbounded">
  <xs:annotation>
    <xs:documentation>Particle source for impurity density transport equation [m^-3.s^-1]. Vector(nimpur). Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / qi
Namespace No namespace
Annotations
 
Heat source for ion heat transport equations [W.m^-3]. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_ion_exp utilities_xsd.tmp#source_ion_imp utilities_xsd.tmp#source_ion
Type source_ion
Properties
content complex
Model
Children exp, imp
Instance
 
<qi>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</qi>
Source
 
<xs:element name="qi" type="source_ion">
  <xs:annotation>
    <xs:documentation>Heat source for ion heat transport equations [W.m^-3]. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / qe
Namespace No namespace
Annotations
 
Heat source for electron heat transport equation [W.m^-3]. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_vec_exp utilities_xsd.tmp#source_vec_imp utilities_xsd.tmp#source_vec
Type source_vec
Properties
content complex
Model
Children exp, imp
Instance
 
<qe>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</qe>
Source
 
<xs:element name="qe" type="source_vec">
  <xs:annotation>
    <xs:documentation>Heat source for electron heat transport equation [W.m^-3]. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / qz
Namespace No namespace
Annotations
 
Heat source for impurity heat transport equations [W.m^-3]. Vector(nimpur). Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_imp_exp utilities_xsd.tmp#source_imp_imp utilities_xsd.tmp#source_imp
Type source_imp
Properties
content complex
minOccurs 0
maxOccurs unbounded
Model
Children exp, imp
Instance
 
<qz>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</qz>
Source
 
<xs:element name="qz" type="source_imp" minOccurs="0" maxOccurs="unbounded">
  <xs:annotation>
    <xs:documentation>Heat source for impurity heat transport equations [W.m^-3]. Vector(nimpur). Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / ui
Namespace No namespace
Annotations
 
Toroidal torque on individual ion species; for toroidal momentum transport equation [kg.m^-1.s^-2]. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_ion_exp utilities_xsd.tmp#source_ion_imp utilities_xsd.tmp#source_ion
Type source_ion
Properties
content complex
Model
Children exp, imp
Instance
 
<ui>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</ui>
Source
 
<xs:element name="ui" type="source_ion">
  <xs:annotation>
    <xs:documentation>Toroidal torque on individual ion species; for toroidal momentum transport equation [kg.m^-1.s^-2]. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource_values / ujxb
Namespace No namespace
Annotations
 
Toroidal JxB torque on bulk plasma; for toroidal momentum transport equation [kg.m^-1.s^-2]. Here J is the return current from fast ion radial currents Jfast=-J. Time-dependent.
Diagram
Diagram utilities_xsd.tmp#source_vec_exp utilities_xsd.tmp#source_vec_imp utilities_xsd.tmp#source_vec
Type source_vec
Properties
content complex
Model
Children exp, imp
Instance
 
<ujxb>
  <exp>{1,1}</exp>
  <imp>{1,1}</imp>
</ujxb>
Source
 
<xs:element name="ujxb" type="source_vec">
  <xs:annotation>
    <xs:documentation>Toroidal JxB torque on bulk plasma; for toroidal momentum transport equation [kg.m^-1.s^-2]. Here J is the return current from fast ion radial currents Jfast=-J. Time-dependent.</xs:documentation>
  </xs:annotation>
</xs:element>
Element coresource / 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 coresource_values
Namespace No namespace
Annotations
 
Description of the source terms for a given origin
Diagram
Diagram coresource_xsd.tmp#NO_NAMESPACE_coresource_values_sourceid coresource_xsd.tmp#NO_NAMESPACE_coresource_values_rho_tor coresource_xsd.tmp#NO_NAMESPACE_coresource_values_rho_tor_norm coresource_xsd.tmp#NO_NAMESPACE_coresource_values_psi coresource_xsd.tmp#NO_NAMESPACE_coresource_values_volume coresource_xsd.tmp#NO_NAMESPACE_coresource_values_area coresource_xsd.tmp#NO_NAMESPACE_coresource_values_j coresource_xsd.tmp#NO_NAMESPACE_coresource_values_sigma coresource_xsd.tmp#NO_NAMESPACE_coresource_values_si coresource_xsd.tmp#NO_NAMESPACE_coresource_values_se coresource_xsd.tmp#NO_NAMESPACE_coresource_values_sz coresource_xsd.tmp#NO_NAMESPACE_coresource_values_qi coresource_xsd.tmp#NO_NAMESPACE_coresource_values_qe coresource_xsd.tmp#NO_NAMESPACE_coresource_values_qz coresource_xsd.tmp#NO_NAMESPACE_coresource_values_ui coresource_xsd.tmp#NO_NAMESPACE_coresource_values_ujxb utilities_xsd.tmp#codeparam
Used by
Model
Children area, codeparam, j, psi, qe, qi, qz, rho_tor, rho_tor_norm, se, si, sigma, sourceid, sz, ui, ujxb, volume
Source
 
<xs:complexType name="coresource_values">
  <xs:annotation>
    <xs:documentation>Description of the source terms for a given origin</xs:documentation>
  </xs:annotation>
  <xs:sequence>
    <xs:element name="sourceid" type="identifier">
      <xs:annotation>
        <xs:documentation>Identifier for the origin of the source terms (see conventions in the ITM website)</xs:documentation>
      </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 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); Time-dependent; Vector (nrho)</xs:documentation>
        <xs:appinfo>experimental</xs:appinfo>
      </xs:annotation>
    </xs:element>
    <xs:element name="psi" type="vecflt_type">
      <xs:annotation>
        <xs:documentation>Poloidal flux [Wb], without 1/2pi and such that Bp=|grad psi| /R/2/pi. Time-dependent; Vector (nrho)</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="volume" type="vecflt_type">
      <xs:annotation>
        <xs:documentation>Volume enclosed in the flux surface [m^3]; Time-dependent; Vector (nrho)</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="area" type="vecflt_type">
      <xs:annotation>
        <xs:documentation>Cross-sectional area of the flux surface [m^2]; Time-dependent; Vector (nrho)</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="j" type="vecflt_type">
      <xs:annotation>
        <xs:documentation>Parallel current source for psi transport equation, = average(j.B) / B0, where B0 = coresource/toroid_field/b0 [A.m^-2]. Vector(nrho). Time-dependent.</xs:documentation>
        <xs:appinfo>experimental</xs:appinfo>
      </xs:annotation>
    </xs:element>
    <xs:element name="sigma" type="vecflt_type">
      <xs:annotation>
        <xs:documentation>Induced parallel conductivity [ohm^-1.m^-1]. EXACT DEFINITION PENDING. Vector(nrho). Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="si" type="source_ion">
      <xs:annotation>
        <xs:documentation>Particle source for ion density transport equation [m^-3.s^-1]. Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="se" type="source_vec">
      <xs:annotation>
        <xs:documentation>Particle source for electron density transport equation [m^-3.s^-1]. Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="sz" type="source_imp" minOccurs="0" maxOccurs="unbounded">
      <xs:annotation>
        <xs:documentation>Particle source for impurity density transport equation [m^-3.s^-1]. Vector(nimpur). Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="qi" type="source_ion">
      <xs:annotation>
        <xs:documentation>Heat source for ion heat transport equations [W.m^-3]. Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="qe" type="source_vec">
      <xs:annotation>
        <xs:documentation>Heat source for electron heat transport equation [W.m^-3]. Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="qz" type="source_imp" minOccurs="0" maxOccurs="unbounded">
      <xs:annotation>
        <xs:documentation>Heat source for impurity heat transport equations [W.m^-3]. Vector(nimpur). Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="ui" type="source_ion">
      <xs:annotation>
        <xs:documentation>Toroidal torque on individual ion species; for toroidal momentum transport equation [kg.m^-1.s^-2]. Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element name="ujxb" type="source_vec">
      <xs:annotation>
        <xs:documentation>Toroidal JxB torque on bulk plasma; for toroidal momentum transport equation [kg.m^-1.s^-2]. Here J is the return current from fast ion radial currents Jfast=-J. Time-dependent.</xs:documentation>
      </xs:annotation>
    </xs:element>
    <xs:element ref="codeparam"/>
  </xs:sequence>
</xs:complexType>
XML Schema documentation generated by ® XML Editor.