	Computational Chemistry Comparison and Benchmark DataBase Release 22 (May 2022) Standard Reference Database 101 National Institute of Standards and Technology
	Home All data for one species Geometry Experimental Experimental Geometries Same bond/angle many molecules Internal Coordinates by type Bond angles Calculated Calculated geometry Rotational constant Moments of inertia Products of moments of inertia BSE Bond lengths Show me a calculated geometry Comparisons Bonds, angles Rotational Constants Products of moments of inertia Point group Bad Calculations Bad moment of inertia Tutorials and Explanations Angle formulas Vibrations Experimental Vibrational frequencies Calculated Frequencies Scale factors Reactions Entropies Ions List Ions Energy Calculated Ionization Energy Compare Ionzation energy Electron Affinity Calculated Electron affinity Compare Electron affinity Proton Affinity Calculated Proton affinity Compare Proton affinity Ionization changes point group Experimental One molecule all properties One property a few molecules Enthalpy of formation Entropy Integrated Heat Capacity Heat Capacity Rotational Constants Vibrational Frequencies Dipole moment Ionization Energy Polarizability Quadrupole Point Groups Geometry Experimental Geometries Internal Coordinates by type Bond angles Rotational Constants Point Groups Diatomic bond lengths Vibrations Vibrational frequencies Diatomic Triatomics Energy Atomization Energy Internal Rotation Electrostatics Dipole Quadrupole Polarizability Reference Data Reference states Spin Splittings Molecules with good enthalpy Enthalpy at 0 Kelvin Calculated Energy Optimized Energy Energy 298K Minimum conformation Hydrogen bonds H bond with counterpoise Reaction Reaction Energy 0K Reaction Energy 298K Internal Rotation Barriers to internal rotation Rotational barrier and dipole Rotational Barrier 2 molecules Orbital HOMO LUMO gap HOMO Orbital Energies Nuclear repulsion energy Correlation Full vs Frozen core energies Partial correlation energies Ion Calculated Ionization Energy Vertical ionization Energy Calculated Electron affinity Calculated Proton affinity Atom charge differences Excited State Singlet triplet gap Electronic state Transition state Basis Set Extrapolation BSE energy BSE Bond lengths Geometry Calculated geometry AIM bond orders One type of bond Rotation Rotational constant Products of moments of inertia Moments of inertia Inertial defects Second moments Point group State symmetry <r2> Sorted by r2 Z-matrix Bad Calculations Bad moment of inertia Bad Calculated Bond Lengths Bad point group Worst molecules Vibrations Frequencies Animated vibrations Anharmonic Zero point energy (ZPE) Scale Factors Scale factors Scale factor uncertainty Calculate a scale factor Why scale vibrations Set scaling factors Bad Calculations Bad Vib. HF vs MP2 Bad vib. Calc. vs exp. Big anharmonicity Electrostatics Charges Mulliken CHELP Aim ESP Dipole Dipole Dipole angle Dipole calculation types Quadrupole Polarizability Spin Spin density Entropy and Heat Capacity Entropy Reaction entropy Heat Capacity Reaction Reaction Energy 0K Reaction Energy 298K Isodesmic reactions Transition State Transition state Transition state frequencies Transition state geometries IRC Lookup by property By frequency Comparisons Geometry Bonds, angles Bond, angle, or dihedral DFT grid size on point group DFT grid on bond length Core correlation - bond length Same bond/angle many molecules Isoelectronic diatomics Isoelectronic triatomic angles Average bond lengths Rotation Rotational Constants Products of moments of inertia Point group Vibrations Vibrations 2 calculations Frequency differences One frequency Zero point energy Intensity Intensity for one mode Vibrational intensities Reduced mass comparison Anharmonic Triatomic Scale factors Energy Reaction Reaction Energy 0K Reaction Energy 298K Atomization 0K Atomization 298K Single point vs optimized DFT grid size on energy Semiempirical enthalpy Internal rotation Similar molecules Conformation Sets of isomers Sets of tautomers Isomers Entropy Entropy Heat capacity Entropy of several molecules Integrated heat capacity Reaction entropy Electrostatics Dipole Polarizability Several molecules Quadrupole Ion Compare Ionzation energy Koopman ionization energy Koopman IE for a few molecules Compare Electron affinity Compare Proton affinity Protonation Site Resources Info on Results Calculations Done Method and basis set List molecules One molecule Multiple conformers, states Multiple conformers, states Basis functions used I/O files Input/output files MOL file Z-matrix wfn files Glossary Conversion Forms B to I, I to B Angle formulas Integrated heat Capacity Calculating Enthalpy Links NIST Links NIST webbook bibliographic data CCCBDB Experimental data External links Basis Set Exchange Computational Chemistry List Thermochemistry in Gaussian Minnesota Database Collection Benchmark Energy and Geometry Point Groups Thermochemistry Thermochemistry Molecules with good enthalpy A → B + C Reference states Tutorials Vibrations Why scale vibrations Zero-point energies Entropy Methyl rotor entropy Entropy and conformations Energy Getting enthalpy of formation Vertical vs adiabatic IE Thermo from calculations Electrostatics Dipole parts by point group Quadrupoles Geometry Angle formulas Cost Cost Comparison Timings Comparison Bad Calculations Geometry Bad moment of inertia Bad Calculated Bond Lengths Bad point group Worst molecules Vibrations Bad vib. Calc. vs exp. Bad Vib. HF vs MP2 Bad scale factors Low excited states Oddities NaCN Is not linear FAQ Help Units Choose Units Energy Bond length Rotational Constant Moment of Inertia Dipole and Quadrupole Polarizability Explanations Hartree cm-1 Debye Credits Just show me Show me a calculated geometry Summary Using older interface Limit Basis sets Method options List Recent molecules Choose a few Molecules Number of atoms By heavy atoms Diatomics InChI Deuterated Dimers Geometry Point group Point group count Bonds types Isodesmic reactions Bad point group Multiple conformers, states Vibrations Big anharmonicity Energy Enthalpy at 0 Kelvin Similar molecules Similar Isomers Cis/trans Tautomers Multiple conformers, states Ions, Dipoles, etc. List Ions Ionization changes point group Dipole Quadrupole Polarizability Proton Affinities Index of CCCBDB Feedback Error form Wants
You are here: Home > Geometry > Experimental > Same bond/angle many molecules OR Comparisons > Geometry > Bonds, angles > Same bond/angle many molecules

Comparison of experiment and theory for rHKr

18 10 23 14 56
Species with coordinate rHKr

Species	Name

The small prefix is the number of bonds with completed calculations.
Click on an entry for a histogram of the difference distribution.

rms differences (calculated - experiment) in Å

Methods with predefined basis sets
semi-empirical	PM6	1 0.002
composite	G2	1 0.015
	G3	1 0.010
	G3B3	1 0.019
	G4	1 0.012
	CBS-Q	1 0.001

rms differences (calculated - experiment) in Å

Methods with standard basis sets
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ
hartree fock	HF	1 0.028	1 0.031	1 0.003	1 0.003	1 0.014	1 0.015	1 0.013	1 0.008	1 0.006	1 0.022	1 0.008	1 0.008	1 0.005	1 0.007	1 0.008	1 0.002	1 0.007	1 0.008
density functional	LSDA	1 0.065		1 0.025	1 0.042	1 0.042	1 0.015	1 0.017	1 0.039	1 0.025	1 0.006	1 0.021	1 0.021	1 0.029	1 0.021		1 0.030	1 0.021
	BLYP	1 0.072	1 0.073	1 0.029	1 0.046	1 0.046	1 0.018	1 0.021	1 0.043	1 0.028	1 0.010	1 0.024	1 0.025	1 0.033	1 0.024		1 0.033	1 0.024
	B1B95	1 0.054		1 0.009	1 0.019	1 0.024	1 0.024	1 0.001	1 0.021	1 0.007	1 0.011		1 0.004	1 0.010	1 0.004		1 0.012	1 0.005
	B3LYP	1 0.059	1 0.058	1 0.017	1 0.030	1 0.034	1 0.006	1 0.008	1 0.030	1 0.016	1 0.002	1 0.012	1 0.013	1 0.020	1 0.013	1 0.012	1 0.021	1 0.013	1 0.012
	B3LYPultrafine		1 0.055			1 0.034	1 0.006	1 0.009	1 0.030		1 0.001	1 0.012	1 0.013	1 0.020	1 0.013		1 0.021	1 0.014
	B3PW91	1 0.057	1 0.052	1 0.012	1 0.022	1 0.028	1 0.000	1 0.002	1 0.025	1 0.011	1 0.008	1 0.008	1 0.008	1 0.014	1 0.009		1 0.015	1 0.009
	mPW1PW91	1 0.054	1 0.048	1 0.009	1 0.019	1 0.025	1 0.003	1 0.001	1 0.022	1 0.009	1 0.010	1 0.006	1 0.006	1 0.010	1 0.006		1 0.012	1 0.007
	M06-2X	1 0.055	1 0.056	1 0.016	1 0.025	1 0.029	1 0.004	1 0.006	1 0.025	1 0.014	1 0.003	1 0.011	1 0.011	1 0.015	1 0.010		1 0.017	1 0.011
	PBEPBE	1 0.068	1 0.067	1 0.024	1 0.037	1 0.039	1 0.011	1 0.014	1 0.037	1 0.023	1 0.003	1 0.019	1 0.020	1 0.026	1 0.020		1 0.027	1 0.020
	PBEPBEultrafine		1 0.064			1 0.039	1 0.012	1 0.014	1 0.037		1 0.005	1 0.019	1 0.020	1 0.026	1 0.020		1 0.027	1 0.021
	PBE1PBE	1 0.053		1 0.010	1 0.020	1 0.026	1 0.026	1 0.001	1 0.024	1 0.010	1 0.009	1 0.007	1 0.007	1 0.011	1 0.007		1 0.013	1 0.008
	HSEh1PBE	1 0.054	1 0.052	1 0.011	1 0.022	1 0.027	1 0.001	1 0.001	1 0.024	1 0.011	1 0.009	1 0.008	1 0.008	1 0.012	1 0.008		1 0.014	1 0.008
	TPSSh	1 0.058	1 0.051	1 0.012	1 0.021	1 0.028	1 0.000	1 0.002	1 0.025	1 0.012	1 0.008	1 0.009	1 0.009	1 0.014	1 0.009	1 0.009	1 0.017	1 0.010	1 0.009
	wB97X-D	1 0.050	1 0.045	1 0.009	1 0.015	1 0.023	1 0.004	1 0.001	1 0.018	1 0.006	1 0.010	1 0.004	1 0.004	1 0.009	1 0.004	1 0.004	1 0.011	1 0.005	1 0.004
	B97D3	1 0.069	1 0.058	1 0.016	1 0.030	1 0.032	1 0.003	1 0.005	1 0.030	1 0.015	1 0.004	1 0.012	1 0.012	1 0.019	1 0.011	1 0.011	1 0.020	1 0.011	1 0.011
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ
Moller Plesset perturbation	MP2	1 0.040	1 0.047	1 0.013	1 0.019	1 0.035	1 0.007	1 0.004	1 0.026	1 0.000	1 0.015	1 0.000	1 0.007	1 0.000	1 0.008	1 0.008	1 0.005	1 0.009	1 0.009
	MP2=FULL	1 0.040	1 0.047	1 0.013	1 0.019	1 0.035	1 0.008	1 0.005	1 0.026	1 0.001	1 0.022	1 0.003	1 0.006	1 0.001	1 0.012	1 0.011	1 0.003	1 0.017	1 0.011
	MP3					1 0.037		1 0.004				1 0.000	1 0.008	1 0.000	1 0.009
	MP3=FULL		1 0.049	1 0.014	1 0.020	1 0.037	1 0.008	1 0.006	1 0.027	1 0.002	1 0.022	1 0.003	1 0.007	1 0.001	1 0.011		1 0.003	1 0.016
	MP4		1 0.054			1 0.038				1 0.000		1 0.003	1 0.006	1 0.001	1 0.006		1 0.005	1 0.006
	MP4=FULL		1 0.054			1 0.038				1 0.000		1 0.001		1 0.001	1 0.010		1 0.004	1 0.014
	B2PLYP	1 0.050	1 0.051	1 0.013	1 0.024	1 0.032	1 0.000	1 0.002	1 0.027	1 0.009	1 0.009	1 0.006	1 0.004	1 0.011	1 0.004		1 0.013	1 0.004
	B2PLYP=FULL	1 0.050	1 0.052	1 0.013	1 0.023	1 0.032	1 0.001	1 0.002	1 0.027	1 0.008	1 0.011	1 0.005	1 0.005	1 0.010	1 0.003		1 0.012	1 0.002
	B2PLYP=FULLultrafine	1 0.050	1 0.050	1 0.014	1 0.024	1 0.032	1 0.000	1 0.002	1 0.026	1 0.009	1 0.010	1 0.006	1 0.005	1 0.011	1 0.003		1 0.013	1 0.002
Configuration interaction	CID		1 0.051	1 0.012	1 0.022	1 0.035			1 0.025			1 0.002		1 0.001	1 0.010
Configuration interaction	CISD		1 0.055	1 0.013	1 0.025	1 0.036			1 0.026			1 0.001		1 0.000	1 0.010
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ
Quadratic configuration interaction	QCISD		1 0.057	1 0.015	1 0.026	1 0.039	1 0.004	1 0.002	1 0.029	1 0.001	1 0.014	1 0.002	1 0.006	1 0.002	1 0.007		1 0.005	1 0.008
	QCISD(T)					1 0.040			1 0.031			1 0.004	1 0.004	1 0.002	1 0.005		1 0.007	1 0.005
	QCISD(T)=FULL					1 0.040		1 0.003				1 0.001		1 0.001	1 0.008	1 0.006	1 0.005	1 0.013	1 0.006
	QCISD(TQ)					1 0.040		1 0.001				1 0.004		1 0.002	1 0.005	1 0.004	1 0.007	1 0.005
	QCISD(TQ)=FULL					1 0.040		1 0.003				1 0.001		1 0.001	1 0.008		1 0.005	1 0.013
Coupled Cluster	CCD		1 0.052	1 0.014	1 0.023	1 0.037	1 0.006	1 0.004	1 0.028	1 0.000	1 0.015	1 0.001	1 0.007	1 0.000	1 0.008		1 0.005	1 0.009
	CCSD					1 0.038					1 0.014	1 0.002	1 0.006	1 0.002	1 0.007	1 0.006	1 0.005	1 0.008	1 0.007
	CCSD=FULL					1 0.038					1 0.020	1 0.001	1 0.005	1 0.000	1 0.010	1 0.008	1 0.004	1 0.015	1 0.009
	CCSD(T)					1 0.039	1 0.004	1 0.001	1 0.031	1 0.002	1 0.012	1 0.004	1 0.004	1 0.002	1 0.005	1 0.004	1 0.007	1 0.005	1 0.004
	CCSD(T)=FULL					1 0.039						1 0.001	1 0.004	1 0.001	1 0.008	1 0.006	1 0.005	1 0.013	1 0.007
		STO-3G	3-21G	3-21G*	6-31G	6-31G*	6-31G**	6-31+G**	6-311G*	6-311G**	6-31G(2df,p)	6-311+G(3df,2p)	TZVP	cc-pVDZ	cc-pVTZ	cc-pVQZ	aug-cc-pVDZ	aug-cc-pVTZ	aug-cc-pVQZ

rms differences (calculated - experiment) in Å

Methods with effective core potentials (select basis sets)
		CEP-31G	CEP-31G*	CEP-121G	CEP-121G*	LANL2DZ	SDD	cc-pVTZ-PP	aug-cc-pVTZ-PP	Def2TZVPP
hartree fock	HF	1 0.019		1 0.029		1 0.028	1 0.008			1 0.008
density functional	LSDA									1 0.021
	BLYP									1 0.023
	B1B95									1 0.004
	B3LYP	1 0.051		1 0.060		1 0.055	1 0.015			1 0.012
	B3LYPultrafine									1 0.012
	B3PW91									1 0.008
	mPW1PW91									1 0.006
	M06-2X									1 0.011
	PBEPBE									1 0.019
	PBEPBEultrafine									1 0.019
	PBE1PBE									1 0.007
	HSEh1PBE									1 0.008
	TPSSh									1 0.009
	wB97X-D	1 0.035		1 0.047		1 0.041	1 0.008			1 0.005
	B97D3									1 0.011
Moller Plesset perturbation	MP2	1 0.035		1 0.046		1 0.041	1 0.007			1 0.006
	MP2=FULL									1 0.007
	MP3									1 0.006
	MP3=FULL									1 0.007
	MP4									1 0.003
	MP4=FULL									1 0.004
	B2PLYP									1 0.005
	B2PLYP=FULL									1 0.004
	B2PLYP=FULLultrafine									1 0.005
Configuration interaction	CID									1 0.009
Configuration interaction	CISD									1 0.008
Quadratic configuration interaction	QCISD									1 0.004
	QCISD(T)									1 0.002
	QCISD(T)=FULL									1 0.003
	QCISD(TQ)									1 0.002
	QCISD(TQ)=FULL									1 0.003
Coupled Cluster	CCD									1 0.005
	CCSD									1 0.004
	CCSD=FULL									1 0.006
	CCSD(T)									1 0.002
	CCSD(T)=FULL									1 0.003

For descriptions of the methods (AM1, HF, MP2, ...) and basis sets (3-21G, 3-21G*, 6-31G, ...) see the glossary in section I.C. Predefined means the basis set used is determined by the method.