Pgopher 8.0.323 02 Mar 2015 21:09 64 bit Unicode (Delphi 24/24) Mixture: NH2D_B0X0_fit.pgo Units cm1 PrintLevel Detail Precision 3 BasisOrder boDiagonal QuantumNumberFormat J FitCycles 1 FitDetails False AutoReplot True AllowComplex True NoLineList False ShowEstUnc False ShowDerivatives False SVDlimit 5 ShowSubBasis False SVDThresh 1E-15 ScaleChanges 1 SmallE 2E-18 Species: NH3 Jmax 15 Concentration 1 AsymmetricMolecule: NH2D JAdjustSym True BlockMatrix True PointGroup C2v Representation IIIr SReduction True eeWt 1 eoWt 1 oeWt 3 ooWt 3 C2zAxis a C2xAxis c PseudoC2v False FakeSym False PhaseAdjust False Abundance 1 AsymmetricManifold: X Initial True EigenSearch True LimitSearch True AutoQConverge True UsePopParams False AsymmetricTop: X v=0 Symmetry A1 Kmin all Kmax all A 9.67729453687591 B 6.41088811513731 C 4.69666616829967 DK 0.00036523212668 DJK -0.00079847331583 DJ 0.00052744084375 deltaK 4.46759471180559E-6 deltaJ -0.0001393532405 HK -1.28669437708136E-7 HKJ 2.97174100357121E-7 HJK -2.87431477012007E-7 HJ 1.21678884930454E-7 phiK 1.1271594764402E-9 phiJK 1.35014570646737E-8 phiJ 6.07762757660835E-8 LK -4.60290098425358E-11 LKKJ 1.69190580504864E-10 LJK -1.67097265669038E-10 LJJK 9.39089535067623E-11 LJ -3.12213157810661E-11 llJ -1.15660648140788E-11 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1)))/4 = (N*(N+1)-K^2)/2 = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1)))/4 = (-sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))))/4 = (N*(N+1)-K^2)/2 = (-sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))))/4 = K^2 = -K^4 = -N*(N+1)*K^2 = -N^2*(N+1)^2 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)+(-K+2)*(K-3))*(N*(N+1)+(-K+3)*(K-4))*(N*(N+1)-K*(K-1))) = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)+(-K-2)*(K+3))*(N*(N+1)+(-K-3)*(K+4))*(N*(N+1)-K*(K+1))) = N*(N+1)*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))) = N*(N+1)*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))) = K^6 = N*(N+1)*K^4 = N^2*(N+1)^2*K^2 = N^3*(N+1)^3 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)+(-K+2)*(K-3))*(N*(N+1)+(-K+3)*(K-4))*(N*(N+1)+(-K+4)*(K-5))*(N*(N+1)+(-K+5)*(K-6))*(N*(N+1)-K*(K-1))) = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)+(-K-2)*(K+3))*(N*(N+1)+(-K-3)*(K+4))*(N*(N+1)+(-K-4)*(K+5))*(N*(N+1)+(-K-5)*(K+6))*(N*(N+1)-K*(K+1))) = N*(N+1)*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)+(-K+2)*(K-3))*(N*(N+1)+(-K+3)*(K-4))*(N*(N+1)-K*(K-1))) = N*(N+1)*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)+(-K-2)*(K+3))*(N*(N+1)+(-K-3)*(K+4))*(N*(N+1)-K*(K+1))) = N^2*(N+1)^2*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))) = N^2*(N+1)^2*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))) = K^8 = N*(N+1)*K^6 = N^2*(N+1)^2*K^4 = N^3*(N+1)^3*K^2 = N^4*(N+1)^4 = N^3*(N+1)^3*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))) = N^3*(N+1)^3*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))) AsymmetricTop: X v=1 Symmetry B1 Kmin all Kmax all Origin 0.4059278489254 A 9.67416903463261 B 6.40974892477115 C 4.69741338522932 DK 0.00035797749455 DJK -0.000785659778 DJ 0.00052127554856 deltaK 4.86134277600806E-6 deltaJ -0.00013663511374 HK -1.17038274525238E-7 HKJ 2.72300626055109E-7 HJK -2.62163373035889E-7 HJ 1.09952145627359E-7 phiK 1.27123508223813E-9 phiJK 1.19194903161973E-8 phiJ 5.41259753772725E-8 LK -2.61759753809417E-11 LKKJ 1.1950267274569E-10 LJK -1.19857084596838E-10 LJJK 6.66475939164554E-11 LJ -2.12893047496212E-11 llJ -7.62986505817968E-12 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1)))/4 = (N*(N+1)-K^2)/2 = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1)))/4 = (-sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))))/4 = (N*(N+1)-K^2)/2 = (-sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))))/4 = K^2 = -K^4 = -N*(N+1)*K^2 = -N^2*(N+1)^2 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)+(-K+2)*(K-3))*(N*(N+1)+(-K+3)*(K-4))*(N*(N+1)-K*(K-1))) = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)+(-K-2)*(K+3))*(N*(N+1)+(-K-3)*(K+4))*(N*(N+1)-K*(K+1))) = N*(N+1)*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))) = N*(N+1)*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))) = K^6 = N*(N+1)*K^4 = N^2*(N+1)^2*K^2 = N^3*(N+1)^3 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)+(-K+2)*(K-3))*(N*(N+1)+(-K+3)*(K-4))*(N*(N+1)+(-K+4)*(K-5))*(N*(N+1)+(-K+5)*(K-6))*(N*(N+1)-K*(K-1))) = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)+(-K-2)*(K+3))*(N*(N+1)+(-K-3)*(K+4))*(N*(N+1)+(-K-4)*(K+5))*(N*(N+1)+(-K-5)*(K+6))*(N*(N+1)-K*(K+1))) = N*(N+1)*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)+(-K+2)*(K-3))*(N*(N+1)+(-K+3)*(K-4))*(N*(N+1)-K*(K-1))) = N*(N+1)*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)+(-K-2)*(K+3))*(N*(N+1)+(-K-3)*(K+4))*(N*(N+1)-K*(K+1))) = N^2*(N+1)^2*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))) = N^2*(N+1)^2*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))) = K^8 = N*(N+1)*K^6 = N^2*(N+1)^2*K^4 = N^3*(N+1)^3*K^2 = N^4*(N+1)^4 = N^3*(N+1)^3*sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))) = N^3*(N+1)^3*sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))) AsymmetricTopPerturbation: X Value -0.17160591811819 = (sqrt(N*(N+1)-K*(K-1))*(2*K-1))/2 = (sqrt(N*(N+1)-K*(K+1))*(2*K+1))/2 AsymmetricManifold: B Initial True EigenSearch True LimitSearch True AutoQConverge True UsePopParams False AsymmetricTop: B A2 Colour Navy Symmetry A2 Kmin all Kmax all Origin 59259.5792165382 Float, Increment = 0.1 A 9.85614583750934 Float, Increment = 0.001 B 6.76550800872634 Float, Increment = 0.001 C 3.95298698089263 Float, Increment = 0.001 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1)))/4 = (N*(N+1)-K^2)/2 = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1)))/4 = (-sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))))/4 = (N*(N+1)-K^2)/2 = (-sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))))/4 = K^2 AsymmetricTop: B B1 Colour Maroon Symmetry B1 Kmin all Kmax all Origin 59294.4425023064 Float, Increment = 0.1 A 10.7802397694327 Float, Increment = 0.001 B 6.45487008015504 Float, Increment = 0.001 C 3.95298698089263 Float, Increment = 0.001 = sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1)))/4 = (N*(N+1)-K^2)/2 = sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1)))/4 = (-sqrt((N*(N+1)+(-K+1)*(K-2))*(N*(N+1)-K*(K-1))))/4 = (N*(N+1)-K^2)/2 = (-sqrt((N*(N+1)+(-K-1)*(K+2))*(N*(N+1)-K*(K+1))))/4 = K^2 AsymmetricTopPerturbation: B Value -6.51992915342999 Float = K AsymmetricTopPerturbation: B Value 0.681224229849488 Float = (-sqrt((-N*(N+1)+(K-1)*(K-2))*(N*(N+1)-K*(K-1))))/2 = sqrt((-N*(N+1)+(K+1)*(K+2))*(N*(N+1)-K*(K+1)))/2 TransitionMoments: SphericalTransitionMoment: Rank 2 Component 1 Strength 1 Reduced Matrix Elements of = -1^(2*N-2*K-5)*sqrt(((N-K)*(N+K)*(N+K-1)*(N+K-2))/(N*(2*N-1)*(N-1))) = -1^(2*N-2*K-7)*sqrt(((N-K)*(N-K-1)*(N-K-2)*(N+K))/(N*(2*N-1)*(N-1))) = -1^(2*N-2*K-3)*(N-2*K+1)*sqrt(((N+K)*(N+K-1))/(2*N*(N-1)*(N+1))) = -1^(2*N-2*K-5)*(-N-2*K-1)*sqrt(((N-K)*(N-K-1))/(2*N*(N-1)*(N+1))) = (-1^(2*N-2*K-1)*(2*N+1)*sqrt((6*(N-K+1)*(N+K))/(N*(2*N-1)*(2*N+1)*(2*N+3)*(N+1)))*(-2*K+1))/2 = (-1^(2*N-2*K-3)*(2*N+1)*sqrt((6*(N-K)*(N+K+1))/(N*(2*N-1)*(2*N+1)*(2*N+3)*(N+1)))*(2*K+1))/2 = -1^(2*N-2*K+1)*(-N-2*K)*sqrt(((N-K+1)*(N-K+2))/(2*N*(N+1)*(N+2))) = -1^(2*N-2*K-1)*(N-2*K)*sqrt(((N+K+1)*(N+K+2))/(2*N*(N+1)*(N+2))) = -1^(2*(N-K+2))*sqrt(((N-K+1)*(N-K+2)*(N-K+3)*(N+K+1))/((2*N+3)*(N+1)*(N+2))) = -1^(2*(N-K+1))*sqrt(((N-K+1)*(N+K+1)*(N+K+2)*(N+K+3))/((2*N+3)*(N+1)*(N+2))) Line Strengths from = (-1^(2*(2*N-2*K-5))*(N-K)*(N+K)*(N+K-1)*(N+K-2))/(N*(2*N-1)*(N-1)) = (-1^(2*(2*N-2*K-7))*(N-K)*(N-K-1)*(N-K-2)*(N+K))/(N*(2*N-1)*(N-1)) = (-1^(2*(2*N-2*K-3))*(N-2*K+1)^2*(N+K)*(N+K-1))/(2*N*(N-1)*(N+1)) = (-1^(2*(2*N-2*K-5))*(-N-2*K-1)^2*(N-K)*(N-K-1))/(2*N*(N-1)*(N+1)) = (3*-1^(2*(2*N-2*K-1))*(2*N+1)*(N-K+1)*(N+K)*(-2*K+1)^2)/(2*N*(2*N-1)*(2*N+3)*(N+1)) = (3*-1^(2*(2*N-2*K-3))*(2*N+1)*(N-K)*(N+K+1)*(2*K+1)^2)/(2*N*(2*N-1)*(2*N+3)*(N+1)) = (-1^(2*(2*N-2*K+1))*(-N-2*K)^2*(N-K+1)*(N-K+2))/(2*N*(N+1)*(N+2)) = (-1^(2*(2*N-2*K-1))*(N-2*K)^2*(N+K+1)*(N+K+2))/(2*N*(N+1)*(N+2)) = (-1^(4*(N-K+2))*(N-K+1)*(N-K+2)*(N-K+3)*(N+K+1))/((2*N+3)*(N+1)*(N+2)) = (-1^(4*(N-K+1))*(N-K+1)*(N+K+1)*(N+K+2)*(N+K+3))/((2*N+3)*(N+1)*(N+2)) SphericalTransitionMoment: Rank 2 Component -1 Strength 1 Reduced Matrix Elements of = -1^(2*(N-K-2))*sqrt(((N-K)*(N+K)*(N+K-1)*(N+K-2))/(N*(2*N-1)*(N-1))) = -1^(2*N-2*K-7)*sqrt(((N-K)*(N-K-1)*(N-K-2)*(N+K))/(N*(2*N-1)*(N-1))) = -1^(2*(N-K-1))*(N-2*K+1)*sqrt(((N+K)*(N+K-1))/(2*N*(N-1)*(N+1))) = -1^(2*N-2*K-5)*(-N-2*K-1)*sqrt(((N-K)*(N-K-1))/(2*N*(N-1)*(N+1))) = (-1^(2*(N-K))*(2*N+1)*sqrt((6*(N-K+1)*(N+K))/(N*(2*N-1)*(2*N+1)*(2*N+3)*(N+1)))*(-2*K+1))/2 = (-1^(2*N-2*K-3)*(2*N+1)*sqrt((6*(N-K)*(N+K+1))/(N*(2*N-1)*(2*N+1)*(2*N+3)*(N+1)))*(2*K+1))/2 = -1^(2*(N-K+1))*(-N-2*K)*sqrt(((N-K+1)*(N-K+2))/(2*N*(N+1)*(N+2))) = -1^(2*N-2*K-1)*(N-2*K)*sqrt(((N+K+1)*(N+K+2))/(2*N*(N+1)*(N+2))) = -1^(2*N-2*K+5)*sqrt(((N-K+1)*(N-K+2)*(N-K+3)*(N+K+1))/((2*N+3)*(N+1)*(N+2))) = -1^(2*(N-K+1))*sqrt(((N-K+1)*(N+K+1)*(N+K+2)*(N+K+3))/((2*N+3)*(N+1)*(N+2))) Line Strengths from = (-1^(4*(N-K-2))*(N-K)*(N+K)*(N+K-1)*(N+K-2))/(N*(2*N-1)*(N-1)) = (-1^(2*(2*N-2*K-7))*(N-K)*(N-K-1)*(N-K-2)*(N+K))/(N*(2*N-1)*(N-1)) = (-1^(4*(N-K-1))*(N-2*K+1)^2*(N+K)*(N+K-1))/(2*N*(N-1)*(N+1)) = (-1^(2*(2*N-2*K-5))*(-N-2*K-1)^2*(N-K)*(N-K-1))/(2*N*(N-1)*(N+1)) = (3*-1^(4*(N-K))*(2*N+1)*(N-K+1)*(N+K)*(-2*K+1)^2)/(2*N*(2*N-1)*(2*N+3)*(N+1)) = (3*-1^(2*(2*N-2*K-3))*(2*N+1)*(N-K)*(N+K+1)*(2*K+1)^2)/(2*N*(2*N-1)*(2*N+3)*(N+1)) = (-1^(4*(N-K+1))*(-N-2*K)^2*(N-K+1)*(N-K+2))/(2*N*(N+1)*(N+2)) = (-1^(2*(2*N-2*K-1))*(N-2*K)^2*(N+K+1)*(N+K+2))/(2*N*(N+1)*(N+2)) = (-1^(2*(2*N-2*K+5))*(N-K+1)*(N-K+2)*(N-K+3)*(N+K+1))/((2*N+3)*(N+1)*(N+2)) = (-1^(4*(N-K+1))*(N-K+1)*(N+K+1)*(N+K+2)*(N+K+3))/((2*N+3)*(N+1)*(N+2)) Simulation: Simulation Intensity factor:0.333333333333333 (1 from Spol) IntensityUnits Normalized LifeModel lmNone PlotUnits cm1 nDF 2000 WidthMult 6 AutoMin True AutoMax True ShowSum True ShowParts False ShowFortrat False UseUpper False ShowSymmetry True ShowDeltaJ True ScaleMarkSize True UseSymmetry False UseStateNumber False FortratQno J Fmin 59214.188500962 Fmax 59391.8433207798 Ymin 4.89124581516905E-6 Ymax 0.0263760065634534 Temperature 15 Lorentzian 0.9 SMargin -1 OThreshold 1E-6 Tvib -3.335640952E-5 Tspin 300 PlotSplit 0.5 Fundamental Constants from CODATA 2010: h=6.62606957E-34 k=1.3806488E-23 NA=6.02214129E23 e=1.602176565E-19 me=9.10938291E-31 Residuals before fit for NH2D for the B - X Transition J'S' #' J"S" #" Observed Calculated Obs-Calc StdDev 1 E- 1 2 E+ 3 59218.696 59218.887 -0.191 1.00000 :B A2 1 0 1 - X v=0 2 2 0:: .00106 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 6:NH2D_B0X0.lin 1 O+ 1 1 O+ 1 59261.918 59261.828 0.090 1.00000 :B A2 1 1 0 - X v=0 1 1 1:: .01622 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 7:NH2D_B0X0.lin 1 O+ 1 2 O- 2 59236.275 59236.191 0.084 1.00000 :B A2 1 1 0 - X v=0 2 1 1:: .00081 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 8:NH2D_B0X0.lin 1 E+ 1 1 E+ 2 59255.847 59255.985 -0.138 1.00000 :B A2 1 1 1 - X v=0 1 1 0:: .02068 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 9:NH2D_B0X0.lin 1 E+ 1 2 E- 1 59237.002 59237.225 -0.223 1.00000 :B A2 1 1 1 - X v=0 2 1 2:: .00075 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 10:NH2D_B0X0.lin 2 O+ 1 1 O- 1 59275.614 59275.470 0.144 1.00000 :B A2 2 0 2 - X v=0 1 0 1:: .00305 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 11:NH2D_B0X0.lin 2 E- 1 1 E+ 2 59283.576 59283.395 0.181 1.00000 :B A2 2 1 1 - X v=0 1 1 0:: .0104 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 12:NH2D_B0X0.lin 2 E- 1 2 E- 1 59264.642 59264.636 0.006 1.00000 :B A2 2 1 1 - X v=0 2 1 2:: .00306 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 13:NH2D_B0X0.lin 2 O- 1 1 O+ 1 59273.106 59273.181 -0.075 1.00000 :B A2 2 1 2 - X v=0 1 1 1:: .01733 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 14:NH2D_B0X0.lin 2 O- 1 2 O- 2 59247.393 59247.543 -0.150 1.00000 :B A2 2 1 2 - X v=0 2 1 1:: .00493 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 15:NH2D_B0X0.lin 2 O+ 2 1 O- 1 59299.296 59299.152 0.144 1.00000 :B A2 2 2 0 - X v=0 1 0 1:: .01534 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 16:NH2D_B0X0.lin 2 E+ 1 0 E+ 1 59307.991 59307.993 -0.002 1.00000 :B A2 2 2 1 - X v=0 0 0 0:: .02572 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 17:NH2D_B0X0.lin 3 E- 1 2 E+ 1 59277.537 59277.550 -0.013 1.00000 :B A2 3 0 3 - X v=0 2 0 2:: .0025 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 18:NH2D_B0X0.lin 3 O+ 1 1 O+ 1 59318.418 59318.272 0.146 1.00000 :B A2 3 1 2 - X v=0 1 1 1:: .01297 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 19:NH2D_B0X0.lin 3 O+ 1 2 O- 2 59292.801 59292.635 0.166 1.00000 :B A2 3 1 2 - X v=0 2 1 1:: .00093 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 20:NH2D_B0X0.lin 3 E+ 1 1 E+ 2 59294.647 59294.442 0.205 1.00000 :B A2 3 1 3 - X v=0 1 1 0:: .00083 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 21:NH2D_B0X0.lin 3 E+ 1 2 E- 1 59275.614 59275.683 -0.069 1.00000 :B A2 3 1 3 - X v=0 2 1 2:: .00906 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 22:NH2D_B0X0.lin 3 E- 2 2 E+ 1 59312.585 59312.362 0.223 1.00000 :B A2 3 2 1 - X v=0 2 0 2:: .00291 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 23:NH2D_B0X0.lin 3 O- 1 1 O- 1 59325.541 59325.758 -0.217 1.00000 :B A2 3 2 2 - X v=0 1 0 1:: .01449 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 24:NH2D_B0X0.lin 3 O+ 2 1 O+ 1 59348.411 59348.391 0.020 1.00000 :B A2 3 3 0 - X v=0 1 1 1:: .02861 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 25:NH2D_B0X0.lin 3 O+ 2 2 O- 2 59322.870 59322.753 0.117 1.00000 :B A2 3 3 0 - X v=0 2 1 1:: .00458 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 26:NH2D_B0X0.lin 3 E+ 3 1 E+ 2 59345.950 59346.094 -0.144 1.00000 :B A2 3 3 1 - X v=0 1 1 0:: .04233 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 27:NH2D_B0X0.lin 4 E- 1 2 E- 1 59338.630 59338.497 0.133 1.00000 :B A2 4 1 3 - X v=0 2 1 2:: .00697 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 28:NH2D_B0X0.lin 4 E+ 1 2 E+ 1 59341.683 59341.871 -0.188 1.00000 :B A2 4 2 3 - X v=0 2 0 2:: .00375 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 29:NH2D_B0X0.lin 4 E- 2 2 E- 1 59371.663 59372.188 -0.525 1.00000 :B A2 4 3 1 - X v=0 2 1 2:: .0039 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 30:NH2D_B0X0.lin 4 O- 2 2 O- 2 59361.541 59361.445 0.096 1.00000 :B A2 4 3 2 - X v=0 2 1 1:: .00286 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 31:NH2D_B0X0.lin 4 O+ 4 2 O+ 2 59384.160 59384.444 -0.284 1.00000 :B A2 4 4 0 - X v=0 2 2 1:: .00159 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 32:NH2D_B0X0.lin 4 E+ 3 2 E+ 3 59384.160 59383.671 0.489 1.00000 :B A2 4 4 1 - X v=0 2 2 0:: .00167 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 33:NH2D_B0X0.lin 0 O- 1 2 O- 2 59254.548 59254.433 0.115 1.00000 :B B1 0 0 0 - X v=0 2 1 1:: .00284 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 38:NH2D_B0X0.lin 1 E+ 2 1 E+ 2 59290.159 59290.069 0.090 1.00000 :B B1 1 0 1 - X v=0 1 1 0:: .00795 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 39:NH2D_B0X0.lin 1 E+ 2 2 E- 1 59271.308 59271.310 -0.002 1.00000 :B B1 1 0 1 - X v=0 2 1 2:: .00297 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 40:NH2D_B0X0.lin 1 E+ 2 3 E+ 2 59230.775 59230.676 0.099 1.00000 :B B1 1 0 1 - X v=0 3 1 2:: .00039 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 41:NH2D_B0X0.lin 1 O- 1 1 O- 1 59300.591 59300.576 0.015 1.00000 :B B1 1 1 0 - X v=0 1 0 1:: .00682 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 42:NH2D_B0X0.lin 1 E- 2 2 E+ 1 59277.531 59277.469 0.062 1.00000 :B B1 1 1 1 - X v=0 2 0 2:: .00196 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 43:NH2D_B0X0.lin 2 O- 2 1 O+ 1 59314.218 59314.477 -0.259 1.00000 :B B1 2 0 2 - X v=0 1 1 1:: .01108 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 44:NH2D_B0X0.lin 2 E+ 2 0 E+ 1 59336.511 59336.724 -0.213 1.00000 :B B1 2 1 1 - X v=0 0 0 0:: .02062 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 45:NH2D_B0X0.lin 2 E+ 2 2 E+ 1 59303.647 59303.942 -0.295 1.00000 :B B1 2 1 1 - X v=0 2 0 2:: .00178 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 46:NH2D_B0X0.lin 2 O- 3 1 O+ 1 59334.824 59334.875 -0.051 1.00000 :B B1 2 2 0 - X v=0 1 1 1:: .01665 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 47:NH2D_B0X0.lin 2 E- 2 1 E+ 2 59332.872 59332.842 0.030 1.00000 :B B1 2 2 1 - X v=0 1 1 0:: .00551 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 48:NH2D_B0X0.lin 2 E- 2 2 E- 1 59314.218 59314.082 0.136 1.00000 :B B1 2 2 1 - X v=0 2 1 2:: .00578 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 49:NH2D_B0X0.lin 3 O- 2 1 O- 1 59362.881 59362.252 0.629 1.00000 :B B1 3 1 2 - X v=0 1 0 1:: .00462 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 50:NH2D_B0X0.lin 3 E+ 4 1 E+ 2 59370.443 59370.496 -0.053 1.00000 :B B1 3 2 1 - X v=0 1 1 0:: .00768 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 51:NH2D_B0X0.lin 3 E+ 4 2 E- 1 59351.506 59351.737 -0.231 1.00000 :B B1 3 2 1 - X v=0 2 1 2:: .00309 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 52:NH2D_B0X0.lin 3 O+ 3 1 O+ 1 59370.443 59370.601 -0.158 1.00000 :B B1 3 2 2 - X v=0 1 1 1:: .00268 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 53:NH2D_B0X0.lin 3 O- 3 2 O+ 2 59358.649 59358.898 -0.249 1.00000 :B B1 3 3 0 - X v=0 2 2 1:: .00069 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 54:NH2D_B0X0.lin 3 E- 4 2 E+ 3 59358.649 59358.334 0.315 1.00000 :B B1 3 3 1 - X v=0 2 2 0:: .00054 : v0_085_NH2D_673.3-675.5_laser_corrected.dat - Overlays : 55:NH2D_B0X0.lin SVD fit: 46 Observations, 9 Parameters Initial Average Error: 0.232640038724814 Predicted New Error: 0.232640038724809 Parameters: # Old New Std Dev Change/Std Sens Summary Name 1 59259.5792165382 59259.5792164925 .10326961 0.0000 .003706 59259.58(10) B A2 Origin 2 9.85614583750934 9.85614586404540 .02641678 0.0000 .000739 9.856(26) B A2 A 3 6.76550800872634 6.76550801942306 .01970175 0.0000 .000815 6.766(20) B A2 B 4 3.95298698089263 3.95298698967680 .01757240 0.0000 .000689 3.953(18) B A2 C 5 59294.4425023064 59294.4425023127 .10257073 0.0000 .004282 59294.44(10) B B1 Origin 6 10.7802397694327 10.7802397636877 .02132329 0.0000 .001121 10.780(21) B B1 A 7 6.45487008015504 6.45487005554013 .03463404 0.0000 .001270 6.455(35) B B1 B 8 -6.51992915342999 -6.51992918337442 .06293542 0.0000 .002801 -6.520(63) B Value 9 .681224229849488 .681224282562973 .04428363 0.0000 .001352 0.681(44) B Value Constraints: NH3.NH2D.B.B1.C := NH3.NH2D.B.A2.C Correlation Matrix 1 2 3 4 5 6 7 8 9 1 1.000 2 -0.546 1.000 3 -0.521 0.278 1.000 4 -0.257 0.335 -0.077 1.000 5 -0.160 0.172 0.130 -0.180 1.000 6 0.182 -0.284 -0.152 -0.016 -0.513 1.000 7 0.223 -0.569 -0.219 -0.462 -0.416 0.080 1.000 8 -0.184 -0.168 -0.064 -0.573 0.204 -0.023 0.420 1.000 9 -0.407 0.849 0.446 0.327 0.120 -0.264 -0.563 -0.230 1.000