diff --git a/inc/LauKMatrixProdPole.hh b/inc/LauKMatrixProdPole.hh
--- a/inc/LauKMatrixProdPole.hh
+++ b/inc/LauKMatrixProdPole.hh
@@ -44,7 +44,7 @@
 
 class LauKMatrixProdPole : public LauAbsResonance {
 
-        public:
+	public:
 		//! Constructor
 		/*!
 			\param [in] poleName name of the pole
@@ -54,34 +54,36 @@
 			\param [in] daughters the daughter particles
 			\param [in] useProdAdler boolean to turn on/off the production Adler zero factor
 		*/	
-                LauKMatrixProdPole(const TString& poleName, Int_t poleIndex, Int_t resPairAmpInt,
-		                   LauKMatrixPropagator* propagator, const LauDaughters* daughters,
-				   Bool_t useProdAdler = kFALSE);
+		LauKMatrixProdPole(	const TString& poleName, Int_t poleIndex, Int_t resPairAmpInt,
+							LauKMatrixPropagator* propagator, const LauDaughters* daughters,
+							Bool_t useProdAdler = kFALSE);
 
 		//! Destructor
-  		virtual ~LauKMatrixProdPole();
+		virtual ~LauKMatrixProdPole();
 
 		// Initialise the model
-  		virtual void initialise() {return;}
+		virtual void initialise() {return;}
 
 		//! The amplitude calculation
 		/*!
 			\param [in] kinematics the kinematic variables of the current event
 			\return the complex amplitude
 		*/	
-  		virtual LauComplex amplitude(const LauKinematics* kinematics);
+		virtual LauComplex amplitude(const LauKinematics* kinematics);
 
 		//! Get the resonance model type
-                /*!
-                        \return the resonance model type
-                */
+		/*!
+			\return the resonance model type
+		*/
 		virtual LauAbsResonance::LauResonanceModel getResonanceModel() const {return LauAbsResonance::KMatrix;}
 
+		virtual const std::vector<LauParameter*>& getFloatingParameters();
+
 	protected:
 		//! Function not meant to be called, amplitude is called directly in this case
-  		virtual LauComplex resAmp(Double_t mass, Double_t spinTerm);
+		virtual LauComplex resAmp(Double_t mass, Double_t spinTerm);
 
- 	private:
+	private:
 		//! Copy constructor (not implemented)
 		LauKMatrixProdPole(const LauKMatrixProdPole& rhs);
 
@@ -89,14 +91,14 @@
 		LauKMatrixProdPole& operator=(const LauKMatrixProdPole& rhs);
 
 		//! The K-matrix propagator
-   		LauKMatrixPropagator* thePropagator_;
+		LauKMatrixPropagator* thePropagator_;
 		//! The number of the pole
 		Int_t poleIndex_;
 
-                //! Boolean to turn on/off the production Adler zero factor
-                Bool_t useProdAdler_;
+		//! Boolean to turn on/off the production Adler zero factor
+		Bool_t useProdAdler_;
 
-   		ClassDef(LauKMatrixProdPole, 0) // K-matrix production pole
+		ClassDef(LauKMatrixProdPole, 0) // K-matrix production pole
 
 };
 
diff --git a/inc/LauKMatrixProdSVP.hh b/inc/LauKMatrixProdSVP.hh
--- a/inc/LauKMatrixProdSVP.hh
+++ b/inc/LauKMatrixProdSVP.hh
@@ -76,6 +76,8 @@
                         \return the resonance model type
                 */
 		virtual LauAbsResonance::LauResonanceModel getResonanceModel() const {return LauAbsResonance::KMatrix;}
+
+		const std::vector<LauParameter*>& getFloatingParameters();
 		
 	protected:
 		//! Function not meant to be called
diff --git a/inc/LauKMatrixPropagator.hh b/inc/LauKMatrixPropagator.hh
--- a/inc/LauKMatrixPropagator.hh
+++ b/inc/LauKMatrixPropagator.hh
@@ -49,7 +49,7 @@
 
 class LauKMatrixPropagator {
 
-        public:
+	public:
 		//! Constructor
 		/*! 
 			\param [in] name name of the propagator
@@ -59,12 +59,12 @@
 			\param [in] nPoles the number of poles
 			\param [in] rowIndex this specifies which row of the propagator should be used when summing over the amplitude channels
 		*/
-	        LauKMatrixPropagator(const TString& name, const TString& paramFileName, 
-                                     Int_t resPairAmpInt, Int_t nChannels, Int_t nPoles,
-				     Int_t rowIndex = 1);
+		LauKMatrixPropagator(	const TString& name, const TString& paramFileName, 
+								Int_t resPairAmpInt, Int_t nChannels, Int_t nPoles,
+								Int_t rowIndex = 1 );
 
 		//! Destructor
-  	        virtual ~LauKMatrixPropagator();
+  	    virtual ~LauKMatrixPropagator();
 
 		//! Calculate the invariant mass squared s
 		/*!
@@ -82,25 +82,25 @@
 		/*!
 			\param [in] inputFile name of the input file
 		*/	
-	        void setParameters(const TString& inputFile);
+		void setParameters(const TString& inputFile);
 
-                //! Get the scattering K matrix
-                /*!
-                        \return the real, symmetric scattering K matrix
+		//! Get the scattering K matrix
+		/*!
+			\return the real, symmetric scattering K matrix
 		*/
-                TMatrixD getKMatrix() const {return ScattKMatrix_;}
+		TMatrixD getKMatrix() const {return ScattKMatrix_;}
 
-                //! Get the real part of the propagator full matrix
-                /*!
-		        \return the real part of the propagator full matrix
-                */
-                TMatrixD getRealPropMatrix() const {return realProp_;}
+		//! Get the real part of the propagator full matrix
+		/*!
+			\return the real part of the propagator full matrix
+		*/
+		TMatrixD getRealPropMatrix() const {return realProp_;}
 
-                //! Get the negative imaginary part of the full propagator matrix
-                /*!
-                        \return the negative imaginary part of the full propagator matrix
-                */
-        	TMatrixD getNegImagPropMatrix() const {return negImagProp_;}
+		//! Get the negative imaginary part of the full propagator matrix
+		/*!
+			\return the negative imaginary part of the full propagator matrix
+		*/
+		TMatrixD getNegImagPropMatrix() const {return negImagProp_;}
 
 		//! Get the real part of the term of the propagator
 		/*!
@@ -123,6 +123,14 @@
 		*/
 		Double_t getPoleDenomTerm(Int_t poleIndex) const;
 
+		//! Get coupling parameters, set according to the input file
+		/*!
+			\param [in] poleIndex number of the required pole
+			\param [in] channelIndex number of the required channel
+			\return the parameter of the coupling constant
+		*/
+		LauParameter& getPoleMassSqParameter(Int_t poleIndex);
+
 		//! Get coupling constants that were loaded from the input file
 		/*!
 			\param [in] poleIndex number of the required pole
@@ -131,6 +139,14 @@
 		*/
 		Double_t getCouplingConstant(Int_t poleIndex, Int_t channelIndex) const;
 
+		//! Get coupling parameters, set according to the input file
+		/*!
+			\param [in] poleIndex number of the required pole
+			\param [in] channelIndex number of the required channel
+			\return the parameter of the coupling constant
+		*/
+		LauParameter& getCouplingParameter(Int_t poleIndex, Int_t channelIndex);
+
 		//! Get scattering constants that were loaded from the input file
 		/*!
 			\param [in] channel1Index number of the first channel index
@@ -139,6 +155,20 @@
 		*/
 		Double_t getScatteringConstant(Int_t channel1Index, Int_t channel2Index) const;
 
+		//! Get scattering parameters, set according to the input file
+		/*!
+			\param [in] channel1Index number of the first channel index
+			\param [in] channel2Index number of the second channel index
+			\return the parameter of the scattering constant
+		*/
+		LauParameter& getScatteringParameter(Int_t channel1Index, Int_t channel2Index);
+
+		//! Get s0 production parameter
+		/*!
+			\return the s0Prod parameter
+		*/
+		LauParameter& gets0Prod() {return s0Prod_;}
+
 		//! Get the "slowly-varying part" term of the amplitude
 		/*!
 			\return the svp term
@@ -154,62 +184,60 @@
 
 		//! Get the DP axis identifier
 		/*!
-			/return the value to identify the DP axis in question
+			\return the value to identify the DP axis in question
 		*/
 		Int_t getResPairAmpInt() const {return resPairAmpInt_;}
 
 		//! Get the number of channels
 		/*!
-			/return the number of channels
+			\return the number of channels
 		*/
 		Int_t getNChannels() const {return nChannels_;}
 
 		//! Get the number of poles
 		/*!
-			/return the number of poles
+			\return the number of poles
 		*/
 		Int_t getNPoles() const {return nPoles_;}
 
 		//! Get the propagator name
 		/*!
-			/return the name of the propagator
+			\return the name of the propagator
 		*/
 		TString getName() const {return name_;}
 
-                //! Get the unitary transition amplitude for the given channel
-                /*!
-                        \param [in] s The invariant mass squared
-                        \param [in] channel The index number of the channel process
-                        \return the complex amplitude T
+		//! Get the unitary transition amplitude for the given channel
+		/*!
+			\param [in] s The invariant mass squared
+			\param [in] channel The index number of the channel process
+			\return the complex amplitude T
 		*/
-                LauComplex getTransitionAmp(Double_t s, Int_t channel);
-
+		LauComplex getTransitionAmp(Double_t s, Int_t channel);
 
-                //! Get the complex phase space term for the given channel and invariant mass squared
-                /*!
-                        \param [in] s The invariant mass squared
-                        \param [in] channel The index number of the channel process
-                        \return the complex phase space term rho(channel, channel)
+        //! Get the complex phase space term for the given channel and invariant mass squared
+        /*!
+            \param [in] s The invariant mass squared
+            \param [in] channel The index number of the channel process
+            \return the complex phase space term rho(channel, channel)
 		*/
-                LauComplex getPhaseSpaceTerm(Double_t s, Int_t channel);
+        LauComplex getPhaseSpaceTerm(Double_t s, Int_t channel);
 
-                //! Get the Adler zero factor, which is set when updatePropagator is called
-                /*!     
-		        \return the Adler zero factor
+        //! Get the Adler zero factor, which is set when updatePropagator is called
+        /*!     
+		    \return the Adler zero factor
 		*/
-                Double_t getAdlerZero() const {return adlerZeroFactor_;}
+        Double_t getAdlerZero() const {return adlerZeroFactor_;}
     
 
-	        //! Get the THat amplitude for the given s and channel number
-	        /*!
-		        \param [in] s The invariant mass squared
+	    //! Get the THat amplitude for the given s and channel number
+	    /*!
+		    \param [in] s The invariant mass squared
 			\param [in] channel The index number of the channel process
 			\return the complex THat amplitude
 		*/
-                LauComplex getTHat(Double_t s, Int_t channel);
-
+        LauComplex getTHat(Double_t s, Int_t channel);
 
-        protected:
+	protected:
 		//! Calculate the scattering K-matrix for the given value of s
 		/*!
 			\param [in] s the invariant mass squared
@@ -318,22 +346,22 @@
 		Bool_t checkPhaseSpaceType(Int_t phaseSpaceInt) const;
 
 
-                //! Get the unitary transition amplitude matrix for the given kinematics
-                /*!
-                        \param [in] kinematics The pointer to the constant kinematics
+        //! Get the unitary transition amplitude matrix for the given kinematics
+        /*!
+            \param [in] kinematics The pointer to the constant kinematics
 		*/
-                void getTMatrix(const LauKinematics* kinematics);
+        void getTMatrix(const LauKinematics* kinematics);
 
-                //! Get the unitary transition amplitude matrix for the given kinematics
-                /*!
-                        \param [in] s The invariant mass squared of the system
+        //! Get the unitary transition amplitude matrix for the given kinematics
+        /*!
+            \param [in] s The invariant mass squared of the system
 		*/
-                void getTMatrix(Double_t s);
+        void getTMatrix(Double_t s);
 
-                //! Get the square root of the phase space matrix
-                void getSqrtRhoMatrix();
-                
-        private:
+        //! Get the square root of the phase space matrix
+        void getSqrtRhoMatrix();
+               
+    private:
 		//! Copy constructor (not implemented)
 		LauKMatrixPropagator(const LauKMatrixPropagator& rhs);
 
@@ -341,39 +369,39 @@
 		LauKMatrixPropagator& operator=(const LauKMatrixPropagator& rhs);
 
 		//! Create a map for the K-matrix parameters	
-	        typedef std::map<int, std::vector<LauParameter> > KMatrixParamMap;
+	    typedef std::map<int, std::vector<LauParameter> > KMatrixParamMap;
 
 
-	        //! Initialise and set the dimensions for the internal matrices and parameter arrays
-        	void initialiseMatrices();
+	    //! Initialise and set the dimensions for the internal matrices and parameter arrays
+        void initialiseMatrices();
 
-        	//! Store the (phase space) channel indices from a line in the parameter file
-	        /*!
-	                \param [in] theLine Vector of strings corresponding to the line from the parameter file
+        //! Store the (phase space) channel indices from a line in the parameter file
+	    /*!
+	        \param [in] theLine Vector of strings corresponding to the line from the parameter file
 		*/
-	        void storeChannels(const std::vector<std::string>& theLine);
+	    void storeChannels(const std::vector<std::string>& theLine);
  
-        	//! Store the pole mass and couplings from a line in the parameter file
-	        /*!
-	                \param [in] theLine Vector of strings corresponding to the line from the parameter file
+        //! Store the pole mass and couplings from a line in the parameter file
+	    /*!
+	        \param [in] theLine Vector of strings corresponding to the line from the parameter file
 		*/
-	        void storePole(const std::vector<std::string>& theLine);
+	    void storePole(const std::vector<std::string>& theLine);
 
-        	//! Store the scattering coefficients from a line in the parameter file
-	        /*!
-	                \param [in] theLine Vector of strings corresponding to the line from the parameter file
+        //! Store the scattering coefficients from a line in the parameter file
+	    /*!
+	        \param [in] theLine Vector of strings corresponding to the line from the parameter file
 		*/
-	        void storeScattering(const std::vector<std::string>& theLine);
+	    void storeScattering(const std::vector<std::string>& theLine);
 
-        	//! Store miscelleanous parameters from a line in the parameter file
-	        /*!
-	                \param [in] keyword the name of the parameter to be set
-	                \param [in] parString the string containing the value of the parameter
+        //! Store miscelleanous parameters from a line in the parameter file
+	    /*!
+	        \param [in] keyword the name of the parameter to be set
+	        \param [in] parString the string containing the value of the parameter
 		*/
-        	void storeParameter(const TString& keyword, const TString& parString);
+        void storeParameter(const TString& keyword, const TString& parString);
 
 
-              	//! String to store the propagator name
+		//! String to store the propagator name
 		TString name_;
 		//! Name of the input parameter file
 		TString paramFileName_;
@@ -415,10 +443,10 @@
 		TMatrixD ReSqrtRhoMatrix_;
 		//! Imaginary part of the square root of the phase space density diagonal matrix
 		TMatrixD ImSqrtRhoMatrix_;
-                //! Real part of the unitary T matrix
-                TMatrixD ReTMatrix_;
-                //! Imaginary part of the unitary T matrix
-                TMatrixD ImTMatrix_;
+        //! Real part of the unitary T matrix
+        TMatrixD ReTMatrix_;
+        //! Imaginary part of the unitary T matrix
+        TMatrixD ImTMatrix_;
 
 		//! Number of channels
 		Int_t nChannels_;
@@ -426,12 +454,12 @@
 		Int_t nPoles_;
 
 		//! Vector of squared pole masses
-	        std::vector<LauParameter> mSqPoles_;
+	    std::vector<LauParameter> mSqPoles_;
 
 		//! Array of coupling constants
-	        LauParArray gCouplings_;
+		LauParArray gCouplings_;
 		//! Array of scattering SVP values
-        	LauParArray fScattering_;
+		LauParArray fScattering_;
 
 		//! Vector of phase space types
 		std::vector<Int_t> phaseSpaceTypes_;
@@ -490,8 +518,8 @@
 		//! Control the output of the functions
 		Bool_t verbose_;
 
-	        //! Control if scattering constants are channel symmetric: f_ji = f_ij
-         	Bool_t scattSymmetry_;
+		//! Control if scattering constants are channel symmetric: f_ji = f_ij
+		Bool_t scattSymmetry_;
 
 		ClassDef(LauKMatrixPropagator,0) // K-matrix amplitude model
 };
diff --git a/src/LauKMatrixProdPole.cc b/src/LauKMatrixProdPole.cc
--- a/src/LauKMatrixProdPole.cc
+++ b/src/LauKMatrixProdPole.cc
@@ -106,3 +106,32 @@
 	return amp;
 
 }
+
+const std::vector<LauParameter*>& LauKMatrixProdPole::getFloatingParameters()
+{
+
+	this->clearFloatingParameters();
+
+	Int_t nChannels = thePropagator_->getNChannels();
+
+	for (int jChannel = 0 ; jChannel < nChannels ; jChannel++)
+	{
+		LauParameter& par_gj_ = thePropagator_->getCouplingParameter(poleIndex_, jChannel);
+		if ( !par_gj_.fixed() )
+		{
+			this->addFloatingParameter( &par_gj_ );
+		}
+	}
+
+	for (int iPole = 0 ; iPole < thePropagator_->getNPoles() ; iPole++)
+	{
+		LauParameter& par_polemasssq_ = thePropagator_->getPoleMassSqParameter(poleIndex_);
+		if ( !par_polemasssq_.fixed() )
+		{
+			this->addFloatingParameter( &par_polemasssq_ );
+		}		
+	}
+
+	return this->getParameters();
+
+}
\ No newline at end of file
diff --git a/src/LauKMatrixProdSVP.cc b/src/LauKMatrixProdSVP.cc
--- a/src/LauKMatrixProdSVP.cc
+++ b/src/LauKMatrixProdSVP.cc
@@ -94,3 +94,28 @@
 
 }
 
+const std::vector<LauParameter*>& LauKMatrixProdSVP::getFloatingParameters()
+{
+
+	this->clearFloatingParameters();
+
+	Int_t nChannels = thePropagator_->getNChannels();
+
+	for (int jChannel = 0 ; jChannel < nChannels ; jChannel++)
+	{
+		LauParameter& par_f_ = thePropagator_->getScatteringParameter(channelIndex_, jChannel);
+		if ( !par_f_.fixed() )
+		{
+			this->addFloatingParameter( &par_f_ );
+		}
+	}
+
+	LauParameter& par_s0Prod_ = thePropagator_->gets0Prod();
+	if ( !par_s0Prod_.fixed() )
+	{
+		this->addFloatingParameter( &par_s0Prod_ );
+	}
+
+	return this->getParameters();
+
+}
\ No newline at end of file
diff --git a/src/LauKMatrixPropagator.cc b/src/LauKMatrixPropagator.cc
--- a/src/LauKMatrixPropagator.cc
+++ b/src/LauKMatrixPropagator.cc
@@ -45,7 +45,7 @@
 ClassImp(LauKMatrixPropagator)
 
 LauKMatrixPropagator::LauKMatrixPropagator(const TString& name, const TString& paramFile, 
-					   Int_t resPairAmpInt, Int_t nChannels, 
+					   Int_t resPairAmpInt, Int_t nChannels,
 					   Int_t nPoles, Int_t rowIndex) :
 	name_(name),
 	paramFileName_(paramFile),
@@ -452,7 +452,7 @@
 
 			Double_t poleMass = std::atof(theLine[2].c_str());
 			Double_t poleMassSq = poleMass*poleMass;
-			LauParameter mPoleParam(poleMassSq);
+			LauParameter mPoleParam(Form("KM_%s_poleMassSq_%i",name_.Data(),poleIndex),poleMassSq);
 			mSqPoles_[poleIndex] = mPoleParam;
 
 			cout<<"Added bare pole mass "<<poleMass<<" GeV for pole number "<<poleIndex+1<<endl;
@@ -460,7 +460,7 @@
 			for (Int_t iChannel = 0; iChannel < nChannels_; iChannel++) {
 
 				Double_t couplingConst = std::atof(theLine[iChannel+3].c_str());
-				LauParameter couplingParam(couplingConst);
+				LauParameter couplingParam(Form("KM_%s_gCoupling_%i_%i",name_.Data(),poleIndex,iChannel),couplingConst);
 				gCouplings_[poleIndex][iChannel] = couplingParam;
 
 				cout<<"Added coupling parameter g^{"<<poleIndex+1<<"}_"
@@ -473,8 +473,8 @@
 	} else {
 
 		cerr<<"Error in LauKMatrixPropagator::storePole. Expecting "<<nExpect
-		    <<" numbers for pole definition but found "<<nWords
-		    <<" values instead"<<endl;
+			<<" numbers for pole definition but found "<<nWords
+			<<" values instead"<<endl;
 
 	}
 
@@ -499,7 +499,7 @@
 			for (Int_t iChannel = 0; iChannel < nChannels_; iChannel++) {
 				
 				Double_t scattConst = std::atof(theLine[iChannel+2].c_str());
-				LauParameter scattParam(scattConst);
+				LauParameter scattParam(Form("KM_%s_scattConst_%i_%i",name_.Data(),scattIndex,iChannel),scattConst);
 				fScattering_[scattIndex][iChannel] = scattParam;
 
 				cout<<"Added scattering parameter f("<<scattIndex+1<<","
@@ -527,31 +527,31 @@
 		
 		Double_t mSq0Value = std::atof(parString.Data());
 		cout<<"Adler zero constant m0Sq = "<<mSq0Value<<endl;
-		mSq0_ = LauParameter("mSq0", mSq0Value);
+		mSq0_ = LauParameter(Form("KM_%s_mSq0",name_.Data()), mSq0Value);
 
 	} else if (!keyword.CompareTo("s0scatt")) {
 
 		Double_t s0ScattValue = std::atof(parString.Data());
 		cout<<"Adler zero constant s0Scatt = "<<s0ScattValue<<endl;
-		s0Scatt_ = LauParameter("s0Scatt", s0ScattValue);
+		s0Scatt_ = LauParameter("KM_%s_s0Scatt",name_.Data()), s0ScattValue);
 
 	} else if (!keyword.CompareTo("s0prod")) {
 
 		Double_t s0ProdValue = std::atof(parString.Data());
 		cout<<"Adler zero constant s0Prod = "<<s0ProdValue<<endl;
-		s0Prod_ = LauParameter("s0Scatt", s0ProdValue);
+		s0Prod_ = LauParameter("KM_%s_s0Prod",name_.Data()), s0ProdValue);
 
 	} else if (!keyword.CompareTo("sa0")) {
 
 		Double_t sA0Value = std::atof(parString.Data());
 		cout<<"Adler zero constant sA0 = "<<sA0Value<<endl;
-		sA0_ = LauParameter("sA0", sA0Value);
+		sA0_ = LauParameter("KM_%s_sA0",name_.Data()), sA0Value);
 
 	} else if (!keyword.CompareTo("sa")) {
 
 		Double_t sAValue = std::atof(parString.Data());
 		cout<<"Adler zero constant sA = "<<sAValue<<endl;
-		sA_ = LauParameter("sA", sAValue);
+		sA_ = LauParameter("KM_%s_sA",name_.Data()), sAValue);
 
 	} else if (!keyword.CompareTo("scattsymmetry")) {
 
@@ -651,6 +651,16 @@
 
 }
 
+LauParameter& LauKMatrixPropagator::getPoleMassSqParameter(Int_t poleIndex)
+{
+	if ( (parametersSet_ == kFALSE) || (poleIndex < 0 || poleIndex >= nPoles_) ) {
+		std::cerr << "ERROR from LauKMatrixPropagator::getPoleMassSqParameter(). Invalid pole." << std::endl;
+		gSystem->Exit(EXIT_FAILURE);
+	}
+
+	return mSqPoles_[poleIndex];
+}
+
 Double_t LauKMatrixPropagator::getCouplingConstant(Int_t poleIndex, Int_t channelIndex) const
 {
 
@@ -663,6 +673,18 @@
 
 }
 
+LauParameter& LauKMatrixPropagator::getCouplingParameter(Int_t poleIndex, Int_t channelIndex)
+{
+
+	if ( (parametersSet_ == kFALSE) || (poleIndex < 0 || poleIndex >= nPoles_) || (channelIndex < 0 || channelIndex >= nChannels_) ) {
+		std::cerr << "ERROR from LauKMatrixPropagator::getCouplingParameter(). Invalid coupling." << std::endl;
+		gSystem->Exit(EXIT_FAILURE);
+	}
+
+	//std::cout << "Minvalue + range for " << poleIndex << ", " << channelIndex << ": " << gCouplings_[poleIndex][channelIndex].minValue() << " => + " << gCouplings_[poleIndex][channelIndex].range() <<
+	//			 " and init value: " << gCouplings_[poleIndex][channelIndex].initValue() << std::endl;
+	return gCouplings_[poleIndex][channelIndex];
+}
 
 Double_t LauKMatrixPropagator::getScatteringConstant(Int_t channel1Index, Int_t channel2Index) const
 {
@@ -676,6 +698,17 @@
 
 }
 
+LauParameter& LauKMatrixPropagator::getScatteringParameter(Int_t channel1Index, Int_t channel2Index)
+{
+
+	if ( (parametersSet_ == kFALSE) || (channel1Index < 0 || channel1Index >= nChannels_) || (channel2Index < 0 || channel2Index >= nChannels_) ) {
+		std::cerr << "ERROR from LauKMatrixPropagator::getScatteringParameter(). Invalid chanel index." << std::endl;
+		gSystem->Exit(EXIT_FAILURE);
+	}
+
+	return fScattering_[channel1Index][channel2Index];
+}
+
 Double_t LauKMatrixPropagator::calcSVPTerm(Double_t s, Double_t s0) const
 {