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ALP (T)	magnetics alpha est.
AXR (T,R)	impurity	AMU
BDI (T)	beta diamagnetic
BOL (T,R)	Power radiated	W/cm**3
BPA (T,R)	arctan(Bp/Bz) data	radians
BPB (T,R)	Bp/Bz field ratio
CUR (T)	plasma current	amps
D2F (T,R)	fast ion diffusivity	cm**2/sec
DE2 (T,R)	elec ptcl diffusivty	cm**2/sec
DF3 (T,R)	He3++ Diffusivity	cm**2/sec
DF4 (T,R)	He4++ Diffusivity	cm**2/sec
DF6 (T,R)	Li+++ Diffusivity	cm**2/sec
DFD (T,R)	D+ Diffusivity	cm**2/sec
DFH (T,R)	H+ Diffusivity	cm**2/sec
DFL (T)	diamagnetic flux	Webers
DFT (T,R)	T+ Diffusivity	cm**2/sec
DTG (T)	geometry timestep	seconds
DTS (T)	timestep for sources	seconds
DTX (T)	output resolution	seconds
ECF (T,F)	electron temperature	eV
ECP (T,-)	ECRF antenna powers	watts
EDI (T)	paramagnetic energy	Joules
EHP (T)	E(Bpol)/2+E(plasma)	Joules
ELI (T)	e(Li) non-circular	Joules
ENG (-)	Energy	eV
FD0 (T,E,X)	FD deeply trapped	cm**2/sec
FDB (T,E,X)	FD barely trapped	cm**2/sec
FDP (T,E,X)	FD co barely passing	cm**2/sec
FDQ (T,E,X)	FD co passing limit	cm**2/sec
FDR (T,E,X)	FD ctr barely pass.	cm**2/sec
FDS (T,E,X)	FD ctr passing limit	cm**2/sec
FIE (T)	Switch Ti->GIEFAC*Te
FMN (T)	minority fraction
FMX (T)	ECE Freq. of Te peak	GHz
FRQ (-)	ECE frequency	GHz
GAS (T)	gas flow source	#/sec
GF3 (T)	He3 gas flow source	#/sec
GF4 (T)	He4 gas flow source	#/sec
GF6 (T)	Li gas flow source	#/sec
GFD (T)	D gas flow source	#/sec
GFH (T)	H gas flow source	#/sec
GFT (T)	T gas flow source	#/sec
GIE (T)	Ti/Te factor
GRB (T,R)	MHD g (R*Bt) profile	Tesla*cm
HAL (T)	H/D alpha light	ph/sec
IBE (T,R)	IBW electron heating	watts/cm3
IBI (T,R)	IBW ion heating	watts/cm3
IBM (T)	Total Beam Current	amps
IEC (T)	Total ECRH Current	amps
IIC (T)	Total ICRF Current	amps
ILH (T)	Total LH Current	amps
JBM (T,R)	Beam current profile	A/cm**2
JEC (T,R)	ECRH current profile	A/cm**2
JIC (T,R)	ICRF current profile	A/cm**2
KE2 (T,R)	chi(e) data	cm**2/sec
KF2 (T,R)	chi(i) multiplier
KI2 (T,R)	chi(i) data	cm**2/sec
KPH (T,R)	chi(phi) data	cm**2/sec
L2B (T)	li/2 + beta(pol)
LAD (T)	line avg density	n/cm**3
LF3 (T,R)	He3++ Ln(flow)	cm
LF4 (T,R)	He4++ Ln(flow)	cm
LF6 (T,R)	Li+++ Ln(flow)	cm
LFD (T,R)	D+ Ln(flow)	cm
LFH (T,R)	H+ Ln(flow)	cm
LFT (T,R)	T+ Ln(flow)	cm
LHA (T,-)	LH antenna phasing	degrees
LHE (T,R)	LH electron heating	W/cm**3
LHJ (T,R)	LH driven current	A/cm**2
LHP (T,-)	LH antenna powers	watts
LID (T)	line int density	n/cm**2
LIM (T,-)	Axisymmetric Limiter	cm
MDF (T,-)	Magnetics data
MFR (T,-)	Interferometry
MMX (T,-)	Equilibrium moments	cm
MRY (T,-)	Moments boundary	cm
MSE (T,R)	MSE data	Degrees
NB2 (T,-)	beam heating data
NER (T,R)	electron density	n/cm**3
NI3 (T,R)	He3++ ion density	n/cm**3
NI4 (T,R)	He4++ ion density	n/cm**3
NI6 (T,R)	Li+++ ion density	n/cm**3
NID (T,R)	D+ ion density	n/cm**3
NIH (T,R)	H+ ion density	n/cm**3
NIM (T,R)	impurity density	n/cm**3
NIT (T,R)	T+ ion density	n/cm**3
NMR (T,R)	minority density	n/cm**3
NTX (T)	Neutron flux	n/sec
OGF (T)	gas flow ang. veloc.	rad/sec
OMG (T,R)	plasma rotation	rad/sec
ORC (T)	recyc ang. velocity	rad/sec
PBE (T)	Beam Power (Elec)	watts
PBI (T)	Beam Power (Ions)	watts
PEB (T)	Tot. IB pow. (Elec)	watts
PEC (T)	Total ECRH power	watts
PF0 (T)	Psi(axis)	Wb/rad
PFC (T,-)	PFC currents	A
PFH (T)	PCX Ti upper fit lim	eV
PFL (T)	PCX Ti lower fit lim	eV
PIB (T)	Tot. IB pow. (Ions)	watts
PIC (T)	Total ICRF power	watts
PLF (T)	Poloidal flux	Wb/rad
PLH (T)	Total LH power	watts
POS (T)	major radius	cm
PRS (T,R)	MHD Pressure profile	Pascals
PSI (T,R,Z)	Free boundary Psi	Wb/rad
QBE (T,R)	Beam pwr prof (Elec)	W/cm**3
QBI (T,R)	Beam pwr prof (ions)	W/cm**3
QEC (T,R)	ECRH power profile	W/cm**3
QIC (T,R)	ICRF power profile	W/cm**3
QPR (T,R)	q profile
RAD (-)	x = (R-R0)/a	cm
RBZ (T)	[ext. B field] * R	Tesla*cm
RC3 (T)	recycling He3 source	#/sec
RC4 (T)	recycling He4 source	#/sec
RC6 (T)	recycling Li source	#/sec
RCD (T)	recycling D source	#/sec
RCH (T)	recycling H source	#/sec
RCT (T)	recycling T source	#/sec
RCY (T)	recycling source	#/sec
RES (T,R)	Resistivity	ohm*cm
RFA (T,R,-)	RF Antenna Geom	cm
RFF (T,-)	RF frequency data	Hz
RFP (T,-)	RF heating data
RFS (T,-)	R(theta,xi)	cm
RM0 (T)	0th R moment	cm
RMM (T,-)	R moments	cm
RMN (T)	minor radius	cm
RP2 (T,-)	2nd Rel. TF Ripple
RPL (T,-)	Relative TF Ripple
RRR (-)	Major Radius	cm
RTP (T)	magnetics Rt est.	cm
SAW (T)	sawtooth times	seconds
SBI (T,R)	part. source density	#/sec-cm3
SBT (T)	particle source	#/sec
SF3 (T)	fusion He3 source	#/sec
SFA (T)	fusion alpha source	#/sec
SFL (T)	fusion LI source	#/sec
SFP (T)	fusion proton source	#/sec
SFT (T)	fusion triton source	#/sec
SIM (T,R,-)	impurity species	n/cm**3
TER (T,R)	electron temperature	eV
TET (T)	Te renormalizer	eV
TGF (T)	gas flow temperature	eV
TI2 (T,R)	ion temperature	eV
TIM (-)	time	seconds
TIT (T)	Ti renormalizer	eV
TPI (T)	particle confinement	seconds
TQI (T,R)	anom. torque density	Nt-m/cm3
TQT (T)	anom. total torque	Nt-m
TRC (T)	recyc temperature	eV
TRF (T)	Toroidal flux	Webers
TXI (T)	PCX Ti intercept	cm**-5
V2F (T,R)	fast ion v_rad_anom	cm/sec
VB2 (T,R)	VB emission profile	VB counts
VC3 (T,R)	He3++ v(convective)	cm/sec
VC4 (T,R)	He4++ v(convective)	cm/sec
VC6 (T,R)	Li+++ v(convective)	cm/sec
VCD (T,R)	D+ v(convective)	cm/sec
VCH (T,R)	H+ v(convective)	cm/sec
VCT (T,R)	T+ v(convective)	cm/sec
VMO (T,R)	momentum v_rad_anom	cm/sec
VP2 (T,R)	plasma rotation	rad/sec
VPH (T)	axial rotation	cm/sec
VPO (T,R)	Er potential	volts
VPR (T,R)	specie pol.velocity	cm/sec
VSB (T)	Vis. Bremsstrahlung	VB units
VSF (T)	surface voltage	volts
VTR (T,R)	specie tor.velocity	cm/sec
XKF (T)	chi(i) multiplier
XXX (-)	Flux label X
YMM (T,-)	Y moments	cm
ZEF (T)	Zeff
ZF2 (T,R)	Zeff profile
ZFA (T)	Zeff at edge
ZFS (T,-)	Z(theta,xi)	cm
ZIM (T)	Zimp
ZPL (T)	plasma elevation	cm
ZXR (T,R)	impurity
ZZZ (-)	Elevation	cm

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TRDAT Trigraphs