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Created: Wed, Aug 21, 20:14

ElectronPhononExchange.h
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	#ifndef ELECTRON_PHONON_EXCHANGE_H
	#define ELECTRON_PHONON_EXCHANGE_H

	#include <map>
	#include <string>
	#include <fstream>
	#include "ATC_TypeDefs.h"

	namespace ATC {

	class Material;

	/**
	* @class ElectronPhononExchange
	* @brief Base class for energy exchange between the electron and phonon temperatures
	*/

	class ElectronPhononExchange
	{
	public:
	ElectronPhononExchange() {};
	virtual ~ElectronPhononExchange() {};
	/** computes heat capacity */
	virtual bool electron_phonon_exchange(const FIELD_MATS &fields,
	DENS_MAT &flux) { return false; }
	};
	//-------------------------------------------------------------------

	/**
	* @class ElectronPhononExchangeLinear
	* @brief Class for electron-phonon energy exchange proportional to the difference between the two temperatures
	*/

	class ElectronPhononExchangeLinear : public ElectronPhononExchange
	{
	public:
	ElectronPhononExchangeLinear(std::fstream &matfile,
	std::map<std::string,double> & parameters);
	virtual ~ElectronPhononExchangeLinear() {};
	virtual bool electron_phonon_exchange(const FIELD_MATS &fields,
	DENS_MAT &flux)
	{
	FIELD_MATS::const_iterator tField = fields.find(TEMPERATURE);
	FIELD_MATS::const_iterator etField = fields.find(ELECTRON_TEMPERATURE);
	const DENS_MAT & T = tField->second;
	const DENS_MAT & Te = etField->second;

	// flux = g * ( T- Te)
	flux = Te - T;
	flux *= exchangeCoef_;
	return true;
	};
	protected:
	double exchangeCoef_;
	};
	//-------------------------------------------------------------------

	/**
	* @class ElectronPhononExchangePowerLaw
	* @brief Class for electron-phonon exchange proportional to the temperature difference raised to a constant power
	*/

	class ElectronPhononExchangePowerLaw : public ElectronPhononExchange
	{
	public:
	ElectronPhononExchangePowerLaw(std::fstream &matfile,
	std::map<std::string,double> & parameters);
	virtual ~ElectronPhononExchangePowerLaw() {};
	virtual bool electron_phonon_exchange(const FIELD_MATS &fields,
	DENS_MAT &flux)
	{
	FIELD_MATS::const_iterator tField = fields.find(TEMPERATURE);
	FIELD_MATS::const_iterator etField = fields.find(ELECTRON_TEMPERATURE);
	const DENS_MAT & T = tField->second;
	const DENS_MAT & Te = etField->second;

	// flux = g c_e T_e (T_e - T_p)^5 / T_e
	flux = (Te - T).pow(exponent_);
	flux *= exchangeCoef_;
	return true;
	};
	protected:
	double exchangeCoef_;
	int exponent_;
	};
	//-------------------------------------------------------------------

	/**
	* @class ElectronPhononExchangeHertel
	* @brief Class for electron-phonon exchange based on the formulation of Hertel for Cu
	*/

	class ElectronPhononExchangeHertel : public ElectronPhononExchange
	{
	public:
	ElectronPhononExchangeHertel(std::fstream &matfile,
	std::map<std::string,double> & parameters,
	Material * material);
	virtual ~ElectronPhononExchangeHertel() {};
	virtual bool electron_phonon_exchange(const FIELD_MATS &fields,
	DENS_MAT &flux);
	protected:
	double exchangeCoef_;
	double debeyeTemperature_;
	double massEnhancement_;
	Material * material_;

	private:
	ElectronPhononExchangeHertel() {};
	DENS_MAT capacityWorkspace_;
	};
	}

	#endif

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