# PTO3P replaces the D_DALITZ model
# D0 -> K+ pi- pi0 with 3 channels contributing to the final state
#
# Note that EvtResonance used the CLEO amplitude specification
# in which the sign was flipped. (The amplitude was proportional 
# to -cosTh(BC) in the r.f. of AB). I've flipped the sign back,
# therefore the angle is calculated between a different pair of particles.

Decay D0

1.0 K+ pi- pi0 PTO3P    

	MAXPDF	60.0
	#SCANPDF 10000
	#gives 57.28	

	# Non-resonant	
	
	AMPLITUDE	PHASESPACE	
	COEFFICIENT	POLAR_DEG	1.75	31.2

	
        # rho-(770) 

        AMPLITUDE	RESONANCE	BC	rho0	0.770  0.1507
			ANGULAR		AB
			TYPE		RBW_CLEO
			DVFF		BLATTWEISSKOPF 1.5
			BVFF		BLATTWEISSKOPF 5.0
	COEFFICIENT	POLAR_DEG	1.0	0.0 	


	# K*0(896)

        AMPLITUDE	RESONANCE	AB	K*0	0.8961  0.0505
			ANGULAR		CA
			TYPE		RBW_CLEO
			DVFF		BLATTWEISSKOPF 1.5
			BVFF		BLATTWEISSKOPF 5.0	
	COEFFICIENT 	POLAR_DEG	0.39	-0.2 


	# K*+(892)

        AMPLITUDE	RESONANCE	AC	K*0	0.8915  0.050
			ANGULAR		AB
			TYPE		RBW_CLEO
			DVFF		BLATTWEISSKOPF 1.5
			BVFF		BLATTWEISSKOPF 5.0
	COEFFICIENT	POLAR_DEG	0.44	163.0 	


	# K_0*+(1430)

        AMPLITUDE	RESONANCE	AC	K_0*+	1.412   0.294
			ANGULAR 	AB
			TYPE		RBW_CLEO
			DVFF		BLATTWEISSKOPF 1.5
			BVFF		BLATTWEISSKOPF 5.0
	COEFFICIENT	POLAR_DEG	0.77	55.5 	


	# K_0*0(1430)

        AMPLITUDE	RESONANCE	AB	K_0*0	1.412   0.294
			ANGULAR		CA
			TYPE		RBW_CLEO
			DVFF		BLATTWEISSKOPF 1.5
			BVFF		BLATTWEISSKOPF 5.0
	COEFFICIENT	POLAR_DEG	0.85	166.0 

	
	# rho(3S)-(1700)	

	AMPLITUDE	RESONANCE	BC	rho(3S)- 1.700	0.240
			ANGULAR		AB
			TYPE		RBW_CLEO
			DVFF		BLATTWEISSKOPF 1.5
			BVFF		BLATTWEISSKOPF 5.0
	COEFFICIENT	POLAR_DEG	2.5	171.0	


	# K''*-(1700)	

        AMPLITUDE	RESONANCE	AC	K''*-	1.717   0.322		
			ANGULAR 	AB
			TYPE		RBW_CLEO
			DVFF		BLATTWEISSKOPF 1.5
			BVFF		BLATTWEISSKOPF 5.0
	COEFFICIENT 	POLAR_DEG	2.5	103.0 
	;
Enddecay

End