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ElectronHeatFlux.h
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rLAMMPS lammps
ElectronHeatFlux.h
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#ifndef ELECTRON_HEAT_FLUX_H
#define ELECTRON_HEAT_FLUX_H
#include <map>
#include <string>
#include "ATC_TypeDefs.h"
#include "ElectronFlux.h"
#include "ElectronHeatCapacity.h"
namespace
ATC
{
/**
* @class ElectronHeatFlux
* @brief Base class for the electron heat flux
*/
class
ElectronHeatFlux
{
public:
ElectronHeatFlux
(
/*const*/
ElectronHeatCapacity
*
electronHeatCapacity
=
NULL
);
virtual
~
ElectronHeatFlux
()
{};
/** computes heat flux */
virtual
void
electron_heat_flux
(
const
FIELD_MATS
&
fields
,
const
GRAD_FIELD_MATS
&
gradFields
,
DENS_MAT_VEC
&
flux
)
{
FIELD_MATS
::
const_iterator
etField
=
fields
.
find
(
ELECTRON_TEMPERATURE
);
const
DENS_MAT
&
Te
=
etField
->
second
;
zeroWorkspace_
.
reset
(
Te
.
nRows
(),
Te
.
nCols
());
flux
[
0
]
=
zeroWorkspace_
;
flux
[
1
]
=
zeroWorkspace_
;
flux
[
2
]
=
zeroWorkspace_
;
};
void
electron_heat_convection
(
const
FIELD_MATS
&
fields
,
DENS_MAT_VEC
&
flux
)
{
FIELD_MATS
::
const_iterator
etField
=
fields
.
find
(
ELECTRON_TEMPERATURE
);
FIELD_MATS
::
const_iterator
evField
=
fields
.
find
(
ELECTRON_VELOCITY
);
const
DENS_MAT
&
Te
=
etField
->
second
;
const
DENS_MAT
&
v
=
evField
->
second
;
electronHeatCapacity_
->
electron_heat_capacity
(
fields
,
cpTeWorkspace_
);
cpTeWorkspace_
*=
Te
;
const
CLON_VEC
vx
(
v
,
CLONE_COL
,
0
);
const
CLON_VEC
vy
(
v
,
CLONE_COL
,
1
);
const
CLON_VEC
vz
(
v
,
CLONE_COL
,
2
);
flux
[
0
]
=
vx
;
flux
[
1
]
=
vy
;
flux
[
2
]
=
vz
;
// scale by thermal energy
flux
[
0
]
*=
cpTeWorkspace_
;
flux
[
1
]
*=
cpTeWorkspace_
;
flux
[
2
]
*=
cpTeWorkspace_
;
};
protected:
ElectronHeatCapacity
*
electronHeatCapacity_
;
DENS_MAT
zeroWorkspace_
;
DENS_MAT
cpTeWorkspace_
;
// hopefully avoid resizing
};
//-----------------------------------------------------------------------
/**
* @class ElectronHeatFluxLinear
* @brief Class for an electron heat flux proportional to the temperature gradient with constant conductivity
*/
class
ElectronHeatFluxLinear
:
public
ElectronHeatFlux
{
public:
ElectronHeatFluxLinear
(
std
::
fstream
&
matfile
,
std
::
map
<
std
::
string
,
double
>
&
parameters
,
/*const*/
ElectronHeatCapacity
*
electronHeatCapacity
=
NULL
);
virtual
~
ElectronHeatFluxLinear
()
{};
virtual
void
electron_heat_flux
(
const
FIELD_MATS
&
fields
,
const
GRAD_FIELD_MATS
&
gradFields
,
DENS_MAT_VEC
&
flux
)
{
GRAD_FIELD_MATS
::
const_iterator
dEtField
=
gradFields
.
find
(
ELECTRON_TEMPERATURE
);
// flux = -ke dTe/dx
const
DENS_MAT_VEC
&
dT
=
dEtField
->
second
;
flux
[
0
]
=
-
conductivity_
*
dT
[
0
];
flux
[
1
]
=
-
conductivity_
*
dT
[
1
];
flux
[
2
]
=
-
conductivity_
*
dT
[
2
];
};
protected
:
double
conductivity_
;
};
//-----------------------------------------------------------------------
/**
* @class ElectronHeatFluxPowerLaw
* @brief Class for an electron heat flux proportional to the temperature gradient but with a conductivity proportional to the ratio of the electron and phonon temperatures
*/
class
ElectronHeatFluxPowerLaw
:
public
ElectronHeatFlux
{
public:
ElectronHeatFluxPowerLaw
(
std
::
fstream
&
matfile
,
std
::
map
<
std
::
string
,
double
>
&
parameters
,
/*const*/
ElectronHeatCapacity
*
electronHeatCapacity
=
NULL
);
virtual
~
ElectronHeatFluxPowerLaw
()
{};
virtual
void
electron_heat_flux
(
const
FIELD_MATS
&
fields
,
const
GRAD_FIELD_MATS
&
gradFields
,
DENS_MAT_VEC
&
flux
)
{
FIELD_MATS
::
const_iterator
etField
=
fields
.
find
(
ELECTRON_TEMPERATURE
);
FIELD_MATS
::
const_iterator
tField
=
fields
.
find
(
TEMPERATURE
);
GRAD_FIELD_MATS
::
const_iterator
dEtField
=
gradFields
.
find
(
ELECTRON_TEMPERATURE
);
const
DENS_MAT_VEC
&
dT
=
dEtField
->
second
;
const
DENS_MAT
&
T
=
tField
->
second
;
const
DENS_MAT
&
Te
=
etField
->
second
;
// flux = -ke * ( Te / T ) dT;
flux
[
0
]
=
dT
[
0
];
flux
[
1
]
=
dT
[
1
];
flux
[
2
]
=
dT
[
2
];
electronConductivity_
=
(
-
conductivity_
*
Te
)
/
T
;
flux
[
0
]
*=
electronConductivity_
;
flux
[
1
]
*=
electronConductivity_
;
flux
[
2
]
*=
electronConductivity_
;
};
protected
:
double
conductivity_
;
DENS_MAT
electronConductivity_
;
// hopefully avoid resizing
};
//-----------------------------------------------------------------------
/**
* @class ElectronHeatFluxThermopower
* @brief Class for an electron heat flux proportional to the temperature gradient but with a condu
ctivity proportional to the ratio of the electron and phonon temperatures with the thermopower from teh electric current included
*/
class
ElectronHeatFluxThermopower
:
public
ElectronHeatFlux
{
public:
ElectronHeatFluxThermopower
(
std
::
fstream
&
matfile
,
std
::
map
<
std
::
string
,
double
>
&
parameters
,
/*const*/
ElectronFlux
*
electronFlux
=
NULL
,
/*const*/
ElectronHeatCapacity
*
electronHeatCapacity
=
NULL
);
virtual
~
ElectronHeatFluxThermopower
()
{};
virtual
void
electron_heat_flux
(
const
FIELD_MATS
&
fields
,
const
GRAD_FIELD_MATS
&
gradFields
,
DENS_MAT_VEC
&
flux
)
{
FIELD_MATS
::
const_iterator
etField
=
fields
.
find
(
ELECTRON_TEMPERATURE
);
FIELD_MATS
::
const_iterator
tField
=
fields
.
find
(
TEMPERATURE
);
GRAD_FIELD_MATS
::
const_iterator
dEtField
=
gradFields
.
find
(
ELECTRON_TEMPERATURE
);
const
DENS_MAT_VEC
&
dT
=
dEtField
->
second
;
const
DENS_MAT
&
T
=
tField
->
second
;
const
DENS_MAT
&
Te
=
etField
->
second
;
// flux = -ke * ( Te / T ) dT + pi J_e;
flux
[
0
]
=
dT
[
0
];
flux
[
1
]
=
dT
[
1
];
flux
[
2
]
=
dT
[
2
];
elecCondWorkspace_
=
(
-
conductivity_
*
Te
)
/
T
;
flux
[
0
]
*=
elecCondWorkspace_
;
flux
[
1
]
*=
elecCondWorkspace_
;
flux
[
2
]
*=
elecCondWorkspace_
;
electronFlux_
->
electron_flux
(
fields
,
gradFields
,
tmp_
);
tmp_
[
0
]
*=
Te
;
tmp_
[
1
]
*=
Te
;
tmp_
[
2
]
*=
Te
;
flux
[
0
]
+=
seebeckCoef_
*
tmp_
[
0
];
flux
[
1
]
+=
seebeckCoef_
*
tmp_
[
1
];
flux
[
2
]
+=
seebeckCoef_
*
tmp_
[
2
];
};
protected
:
double
conductivity_
,
seebeckCoef_
;
ElectronFlux
*
electronFlux_
;
DENS_MAT
elecCondWorkspace_
;
// hopefully avoid resizing
DENS_MAT_VEC
tmp_
;
};
}
#endif
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