root/PhysicalQuantities/LatexDefinitions/PhysQuantWithValues.tex
\def\Identifier{$Latex Relation symbol Value$ Unit}
\def\r_VesselMajorRadius{$R_0 = 0.4$ m}
\def\r_VesselMinorRadius{$r_0 = 0.1$ m}
\def\r_PlasmaMinorRadius{$a \approx 0.06$ m}
\def\B_MaximumToroidalMagneticField{$B_t^max < 0.5$ T}
\def\I_MaximumPlasmaCurrent{$I_p^max < 8$ kA}
\def\n_TypicalElectronDensity{$<n_e> \approx \N$ m$^-3$}
\def\Z_EffectiveIonCharge{$Z_eff \approx 2.5$ \N}
\def\T_MaximumElectronTemperature{$T_e^max < 100$ eV}
\def\T_MaximumIonTemperature{$T_i^max < 50$ eV}
\def\t_MaximumDischargeDuration{$\tau_p^max < 25$ ms}
\def\t_ElectronEnergyConfinementTime{$\tau_e \approx 50$ us}
\def\N_AspectRatio{$\varepsilon = 0.25$ -}
\def\r_LimiterRadius{$r_a = 0.085$ m}
\def\S_ChamberSurface{$S_ch = 1.58$ $m^2$}
\def\V_ChamberVolume{$V_ch = 0.079$ $m^3$}
\def\R_VacuumChamberResistance{$R_ch \approx 9.7$ m$\Omega$}
\def\L_VacuumChamberInductance{$L_ch \approx 0.55$ $\mu$H}
\def\C_CurrentDriveFieldCapacitorCapacity{$C_CD = 0.0135$ F}
\def\R_InnerQuadrupol{$ = 0.1$ \Omega}
\def\R_Chamber{$R_{ch} \approx 0.0097$ \Omega}
\def\K_RogowskiCoil{$K_{RogCoil} \approx 5300000$ A/Vs}
\def\K_BtCoil{$K_{BtCoil} \approx 70.42$ T/Vs}
\def\L_VesselMajorRadius{$R_0 = 0.4$ m}
\def\C_ToroidalMagneticFieldCapacitorCapacity{$C_Bt = 0.0675$ F}
\def\B_PoloidalMagneticField{$B_p \N \N$ T}
\def\B_ToroidalMagneticField{$B_t \N \N$ T}
\def\R_OuterHorizontalStabiliationQuadrupol{$ = 3.4$ \Omega}
\def\L_OuterHorizontalStabiliationQuadrupol{$ = 0.000130$ H}
\def\L_OuterVerticalStabiliationQuadrupol{$ = 0.000105$ H}
\def\R_OuterVerticalStabiliationQuadrupol{$ = 2.18$ \Omega}
\def\L_BtCoil{$ = 0.0019$ H}
\def\R_BtCoil{$ = 41.9$ \Omega}
\def\L_PrimaryTransformerCoil{$ = 0.0000018$ H}
\def\R_PrimaryTransformerCoil{$ = 3.5$ \Omega}
\def\L_InnerQuadrupol{$ = 0.000006$ H}
\def\I_PlasmaCurrent{$I_p \N \N$ kA}
\def\U_LoopVoltage{$U_l \N \N$ V}
\def\I_ChamberPlasmaCurrent{$I_ch+p \N \N$ kA}
\def\I_ChamberCurrent{$I_ch \N \N$ kA}
\def\R_PlasmaResistivity{$R_p \N \N$ $\Omega$}
\def\P_HeatingPower{$P_OH \N \N$ kW}
\def\E_PlasmaEnergyVolume{$W_p \N \N$ kJ}
\def\T_ElectronTemperature{$T_e \N \N$ eV}
\def\T_IonTemperature{$T_i \N \N$ eV}
\def\t_DischargeDuration{$\tau_p \N \N$ ms}
\def\t_ElectronEenergyConfinementTime{$\tau_e \N \N$ us}
\def\U_PlasmaPotential{$\Phig \N \N$ V}
\def\U_VoltageChargeCurrentDriveFieldCapacitor{$U_E_t \N \N$ V}
\def\U_VoltageRangeChargeCurrentDriveFieldCapacitor{$U_E_t^<,> \in \N$ V}
\def\U_RecommendedVoltageRangeChargeCurrentDriveFieldCapacitor{$U_E_t^R \in \N$ V}
\def\U_VoltageChargeToroidalMagneticFieldCapacitor{$U_B_t \N \N$ V}
\def\U_VoltageRangeChargeToroidalMgneticFieldCapacitor{$U_B_t^<,> \in \N$ V}
\def\U_RecommendedVoltageRangeChargeToroidalMgneticFieldCapacitor{$U_B_t^R \in \N$ V}
\def\p_WorkingGasPressure{$p_WG \N \N$ mPa}
\def\p_WorkingGasPressureRange{$p_WP^<,> \in \N$ mPa}
\def\p_RecommendedWorkingGasPressureRange{$p_WG^R \in \N$ mPa}