#ReaderName	 #LaTeXName 	#Unit 	#DataType 		#NumberOfUsedBranches	#TFormula	#NamesOfBranches
gamma_max_log_PT:=max(log(gamma1_PT),log(gamma2_PT))	max(ln(p_{T}#gamma_{1}),ln(p_{T}#gamma_{2})	MeV	D	2	max(log(x),log(y))	gamma1_PT	gamma2_PT
K_plus_PI0_ETA:=TMath::Abs(pi_zero_resolved_ETA-K_plus_ETA)	|#eta(#pi^{0})-#eta(K^{+})|	0	D	2	abs(x-y)	pi_zero_resolved_ETA	K_plus_ETA
B_plus_NEW_ConePTasym	p_{T}ConeAsym(B^{+})	0	D	1	x	B_plus_NEW_ConePTasym
B_plus_log_PT:=log(B_plus_PT)	ln(p_{T}(B^{+}))	MeV	D	1	log(x)	B_plus_PT
B_plus_IPCHI2_OWNPV		B^{+}IP#chi^{2}			0	D	1	x	B_plus_IPCHI2_OWNPV
K_plus_log_PT:=log(K_plus_PT)	ln(p_{T}(K^{+}))	MeV	D	1	log(x)	K_plus_PT
B_plus_log_DIRA:=log(1-B_plus_DIRA_OWNPV) 	ln(1-B^{+}DIRA)		0	D	1	log(1-x)	B_plus_DIRA_OWNPV
pi_zero_resolved_CL	ConfidenceLevel#pi^{0}	0	D	1	x	pi_zero_resolved_CL
min_IPCHI2_mumu_OWNPV:=min(log(mu_plus_IPCHI2_OWNPV),log(mu_minus_IP_OWNPV))	min[ln(#mu^{+}IP#chi^{2})),ln(#mu^{-}IP#chi^{2}))]	0	D	2	min(log(x),log(y)) mu_plus_IPCHI2_OWNPV	mu_minus_IPCHI2_OWNPV
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