OOPSE-3.0/forceFields/newDUFF.frc

// This is the forcefield file for the Dipolar Unified-atom Force Field (DUFF).
//
// The sections are divided into AtomTypes, BondTypes, BendTypes,
// and TorsionTypes.
//
// Many parameters (but not all) are derived from the TRAPPE force field
// of Siepmann's group.

begin AtomTypes
//Atom          isDipole        isSSD   mass            LJ epsilon ( kcal/mol)          LJ sigma (Angstroms)    Dipole Moment (Debye)   w0      v0 (kcal/mol)   v0p (kcal/mol)  rl (Angstroms)  ru (Angstroms)  rlp (Angstroms) rup (Angstroms)

CH4             0               0       16.05           0.279                           3.73
CH3             0               0       15.04           0.185                           3.75
CH2             0               0       14.03           0.0866                          3.95
CH              0               0       13.02           0.0189                          4.68
SSD             1               1       18.0153         0.152                           3.035                   2.42    0.07715 3.9     3.9     2.4     3.8     2.75    3.35
HEAD            1               0       196             0.185                           5.75                    20.6
TB1             0               0       14.03           0.0866                          4.0
TE1             0               0       15.04           0.185                           4.0
TB2             0               0       21.05           0.25                            6.0
TE2             0               0       22.56           0.5                             6.0
TB3             0               0       28.06           0.5                             8.0
TE3             0               0       30.08           0.75                            8.0

end AtomTypes

begin BondTypes

//Atom1 Atom2   FixedBondType
//V_FixedBondType = 0

//Atom1 Atom2   HarmonicBondType        b0      Kb (kcal/mol)
//V_HarmonicBondType = Kb(b- bo)^2
//HarmonicBondType Examples
HEAD    CH3     HarmonicBondType                2.75            260
HEAD    CH2     HarmonicBondType                2.75            260
HEAD    CH      HarmonicBondType                2.75            260
HEAD    TB1     HarmonicBondType                2.76            260
HEAD    TB2     HarmonicBondType                3.20            260
HEAD    TB3     HarmonicBondType                3.63            260
CH3     CH3     HarmonicBondType                1.526           260
CH3     CH2     HarmonicBondType                1.526           260
CH3     CH      HarmonicBondType                1.526           260
CH2     CH2     HarmonicBondType                1.526           260
CH2     CH      HarmonicBondType                1.526           260
CH      CH      HarmonicBondType                1.526           260
TB1     TB1     HarmonicBondType                1.526           260
TB2     TB2     HarmonicBondType                2.34            260
TB3     TB3     HarmonicBondType                3.12            260
TB1     TE1     HarmonicBondType                1.526           260
TB2     TE2     HarmonicBondType                2.34            260
TB3     TE3     HarmonicBondType                3.12            260

//Atom1 Atom2   CubicBondType           b0      K3      K2      K1      K0
//V_CubicBondType = K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0


//Atom1 Atom2   QuadraticBondType       b0      K4      K3      K2      K1      K0
//V_QuadraticBondType = K4(b - b0)^4 + K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0


//Atom1 Atom2   PolynomialBondType      b0      i       Ki      [j      Kj]
//V_QuadraticBondType = Ki(b - b0)^i + Kj(b - b0)^j + ...


end BondTypes

begin BendTypes

//HarmonicBendType
//Atom1 Atom2   Atom3   HarmonicBendType        Ktheta  Theta0
//V_HarmonicBendType = Ktheta(Theta - Theta0)^2
//Ktheta: kcal/mole/rad**2
//Theta0: degrees
//HarmonicBendType examples
HEAD    CH2     HEAD    HarmonicBendType        58.84   114.0
HEAD    CH2     CH3     HarmonicBendType        58.84   114.0
HEAD    CH2     CH2     HarmonicBendType        58.84   114.0
HEAD    TB1     TB1     HarmonicBendType        58.84   114.0
HEAD    TB2     TB2     HarmonicBendType        58.84   114.0
HEAD    TB3     TB3     HarmonicBendType        58.84   114.0
HEAD    CH2     CH      HarmonicBendType        58.84   114.0
HEAD    CH      CH3     HarmonicBendType        58.84   112.0
HEAD    CH      CH2     HarmonicBendType        58.84   112.0
HEAD    CH      CH      HarmonicBendType        58.84   112.0
CH3     CH2     CH3     HarmonicBendType        58.84   114.0
CH3     CH2     CH2     HarmonicBendType        58.84   114.0
CH3     CH2     CH      HarmonicBendType        58.84   114.0
CH3     CH      CH3     HarmonicBendType        58.84   112.0
CH3     CH      CH2     HarmonicBendType        58.84   112.0
CH3     CH      CH      HarmonicBendType        58.84   112.0
CH2     CH2     CH2     HarmonicBendType        58.84   114.0
CH2     CH2     CH      HarmonicBendType        58.84   114.0
CH2     CH      CH2     HarmonicBendType        58.84   112.0
CH2     CH      CH      HarmonicBendType        58.84   112.0
CH      CH2     CH      HarmonicBendType        58.84   114.0
CH      CH      CH      HarmonicBendType        58.84   112.0
TB1     TB1     TB1     HarmonicBendType        58.84   114.0
TB2     TB2     TB2     HarmonicBendType        58.84   114.0
TB3     TB3     TB3     HarmonicBendType        58.84   114.0
TE1     TB1     TB1     HarmonicBendType        58.84   114.0
TE2     TB2     TB2     HarmonicBendType        58.84   114.0
TE3     TB3     TB3     HarmonicBendType        58.84   114.0

//GhostBend
//Atom1 Atom2   GHOST   GhostBendType   Ktheta  Theta0  
//Atom2 must be directional atom
//GhostBendType examples
CH2     HEAD    GHOST   GhostBendType   0.00176972      129.783
CH2     HEAD    GHOST   GhostBendType   58.84   90.0
TB1     HEAD    GHOST   GhostBendType   58.84   90.0
TB2     HEAD    GHOST   GhostBendType   58.84   90.0
TB3     HEAD    GHOST   GhostBendType   58.84   90.0

//UreyBradleyBend
//Atom1 Atom2   Atom3   UreyBradleyBend         Ktheta  Theta0  Kub     S0
//V_UreyBradleyBend = Ktheta(Theta - Theta0)^2 +  Kub(S - S0)^2
//Ktheta: kcal/mole/rad**2
//Theta0: degrees
//Kub: kcal/mole/A**2
//S0: A

//CubicBendType
//Atom1 Atom2   Atom3   CubicBendType   Theta0  K3      K2      K1      K0
//V_CubicBendType = K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0

//QuadraticBendType
//Atom1 Atom2   Atom3   QuadraticBendType       Theta0  K4      K3      K2      K1      K0
//V_QuadraticBendType = K4(Theta - Theta0)^4 + K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0

//PolynomialBendType
//Atom1 Atom2   Atom3   PolynomialBendType      Theta0  i       Ki      [j      Kj]
//V_PolynomialBendType = Ki(Theta - Theta0)^i +  Kj(Theta - Theta0)^j + ...

end BendTypes

begin TorsionTypes

//CubicTorsionType
//Atom1 Atom2   Atom3   Atom4   CubicTorsionType                k3              k2              k1              k0  ( all are kcal/mol )
//V_CubicTorsionType = k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
//CubicTorsionType Examples
HEAD    CH2     CH2     HEAD    CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
HEAD    CH2     CH      HEAD    CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH      CH      HEAD    CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH2     CH2     CH3     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
HEAD    CH2     CH      CH3     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH      CH2     CH3     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH      CH      CH3     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH2     CH2     CH2     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
HEAD    CH2     CH      CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH      CH2     CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH      CH      CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH2     CH2     CH      CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
HEAD    CH2     CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH      CH2     CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    CH      CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
HEAD    TB1     TB1     TB1     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
HEAD    TB2     TB2     TB2     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
HEAD    TB3     TB3     TB3     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
CH3     CH2     CH2     CH3     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
CH3     CH2     CH      CH3     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH      CH3     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH3     CH2     CH2     CH2     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
CH3     CH2     CH      CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH2     CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH      CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH3     CH2     CH2     CH      CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
CH3     CH2     CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH2     CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH2     CH2     CH2     CH2     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
CH2     CH2     CH      CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH2     CH      CH      CH2     CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH2     CH2     CH2     CH      CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
CH2     CH2     CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH2     CH      CH2     CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH2     CH      CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH      CH2     CH2     CH      CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
CH      CH2     CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
CH      CH      CH      CH      CubicTorsionType                3.3254          -0.4215         -1.686          1.1661
TB1     TB1     TB1     TB1     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
TB2     TB2     TB2     TB2     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
TB3     TB3     TB3     TB3     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
TE1     TB1     TB1     TB1     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
TE2     TB2     TB2     TB2     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586
TE3     TB3     TB3     TB3     CubicTorsionType                5.9602          -0.2568         -3.802          2.1586

//CharmmTorsionType
//Atom1 Atom2   Atom3   Atom4   CharmmTorsionType               Kchi            n               delta           [Kchi           n               delta]
//V_CharmmTorsionType =  Kchi(1 + cos(n(chi) - delta))
//Kchi: kcal/mole
//n: multiplicity
//delta: degrees
//in some cases, a CharmmTorsionType may have two or three terms. If n is equal to 0, it falls back to harmonic form

//QuadraticTorsionType
//Atom1 Atom2   Atom3   Atom4   QuadraticTorsionType            k4              k3              k2              k1              k0  ( all are kcal/mol )
//V_QuadraticTorsionType = k4(cos phi)^4 + k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0

//PolynomialTorsionType
//Atom1 Atom2   Atom3   Atom4   PolynomialTorsionType   i       Ki      [j      Kj] 
//VPolynomialTorsionType = Ki (cos phi)^i + ... + Kj (cos phi)^j

end TorsionTypes
Revision:	1755
Committed:	Thu Nov 18 21:42:31 2004 UTC (19 years, 7 months ago) by tim
File size:	8599 byte(s)
Log Message:	adding new format DUFF force field
#	Content
1	// This is the forcefield file for the Dipolar Unified-atom Force Field (DUFF).
2	//
3	// The sections are divided into AtomTypes, BondTypes, BendTypes,
4	// and TorsionTypes.
5	//
6	// Many parameters (but not all) are derived from the TRAPPE force field
7	// of Siepmann's group.
8
9	begin AtomTypes
10	//Atom isDipole isSSD mass LJ epsilon ( kcal/mol) LJ sigma (Angstroms) Dipole Moment (Debye) w0 v0 (kcal/mol) v0p (kcal/mol) rl (Angstroms) ru (Angstroms) rlp (Angstroms) rup (Angstroms)
11
12	CH4 0 0 16.05 0.279 3.73
13	CH3 0 0 15.04 0.185 3.75
14	CH2 0 0 14.03 0.0866 3.95
15	CH 0 0 13.02 0.0189 4.68
16	SSD 1 1 18.0153 0.152 3.035 2.42 0.07715 3.9 3.9 2.4 3.8 2.75 3.35
17	HEAD 1 0 196 0.185 5.75 20.6
18	TB1 0 0 14.03 0.0866 4.0
19	TE1 0 0 15.04 0.185 4.0
20	TB2 0 0 21.05 0.25 6.0
21	TE2 0 0 22.56 0.5 6.0
22	TB3 0 0 28.06 0.5 8.0
23	TE3 0 0 30.08 0.75 8.0
24
25	end AtomTypes
26
27	begin BondTypes
28
29	//Atom1 Atom2 FixedBondType
30	//V_FixedBondType = 0
31
32	//Atom1 Atom2 HarmonicBondType b0 Kb (kcal/mol)
33	//V_HarmonicBondType = Kb(b- bo)^2
34	//HarmonicBondType Examples
35	HEAD CH3 HarmonicBondType 2.75 260
36	HEAD CH2 HarmonicBondType 2.75 260
37	HEAD CH HarmonicBondType 2.75 260
38	HEAD TB1 HarmonicBondType 2.76 260
39	HEAD TB2 HarmonicBondType 3.20 260
40	HEAD TB3 HarmonicBondType 3.63 260
41	CH3 CH3 HarmonicBondType 1.526 260
42	CH3 CH2 HarmonicBondType 1.526 260
43	CH3 CH HarmonicBondType 1.526 260
44	CH2 CH2 HarmonicBondType 1.526 260
45	CH2 CH HarmonicBondType 1.526 260
46	CH CH HarmonicBondType 1.526 260
47	TB1 TB1 HarmonicBondType 1.526 260
48	TB2 TB2 HarmonicBondType 2.34 260
49	TB3 TB3 HarmonicBondType 3.12 260
50	TB1 TE1 HarmonicBondType 1.526 260
51	TB2 TE2 HarmonicBondType 2.34 260
52	TB3 TE3 HarmonicBondType 3.12 260
53
54	//Atom1 Atom2 CubicBondType b0 K3 K2 K1 K0
55	//V_CubicBondType = K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0
56
57
58	//Atom1 Atom2 QuadraticBondType b0 K4 K3 K2 K1 K0
59	//V_QuadraticBondType = K4(b - b0)^4 + K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0
60
61
62	//Atom1 Atom2 PolynomialBondType b0 i Ki [j Kj]
63	//V_QuadraticBondType = Ki(b - b0)^i + Kj(b - b0)^j + ...
64
65
66	end BondTypes
67
68	begin BendTypes
69
70	//HarmonicBendType
71	//Atom1 Atom2 Atom3 HarmonicBendType Ktheta Theta0
72	//V_HarmonicBendType = Ktheta(Theta - Theta0)^2
73	//Ktheta: kcal/mole/rad**2
74	//Theta0: degrees
75	//HarmonicBendType examples
76	HEAD CH2 HEAD HarmonicBendType 58.84 114.0
77	HEAD CH2 CH3 HarmonicBendType 58.84 114.0
78	HEAD CH2 CH2 HarmonicBendType 58.84 114.0
79	HEAD TB1 TB1 HarmonicBendType 58.84 114.0
80	HEAD TB2 TB2 HarmonicBendType 58.84 114.0
81	HEAD TB3 TB3 HarmonicBendType 58.84 114.0
82	HEAD CH2 CH HarmonicBendType 58.84 114.0
83	HEAD CH CH3 HarmonicBendType 58.84 112.0
84	HEAD CH CH2 HarmonicBendType 58.84 112.0
85	HEAD CH CH HarmonicBendType 58.84 112.0
86	CH3 CH2 CH3 HarmonicBendType 58.84 114.0
87	CH3 CH2 CH2 HarmonicBendType 58.84 114.0
88	CH3 CH2 CH HarmonicBendType 58.84 114.0
89	CH3 CH CH3 HarmonicBendType 58.84 112.0
90	CH3 CH CH2 HarmonicBendType 58.84 112.0
91	CH3 CH CH HarmonicBendType 58.84 112.0
92	CH2 CH2 CH2 HarmonicBendType 58.84 114.0
93	CH2 CH2 CH HarmonicBendType 58.84 114.0
94	CH2 CH CH2 HarmonicBendType 58.84 112.0
95	CH2 CH CH HarmonicBendType 58.84 112.0
96	CH CH2 CH HarmonicBendType 58.84 114.0
97	CH CH CH HarmonicBendType 58.84 112.0
98	TB1 TB1 TB1 HarmonicBendType 58.84 114.0
99	TB2 TB2 TB2 HarmonicBendType 58.84 114.0
100	TB3 TB3 TB3 HarmonicBendType 58.84 114.0
101	TE1 TB1 TB1 HarmonicBendType 58.84 114.0
102	TE2 TB2 TB2 HarmonicBendType 58.84 114.0
103	TE3 TB3 TB3 HarmonicBendType 58.84 114.0
104
105	//GhostBend
106	//Atom1 Atom2 GHOST GhostBendType Ktheta Theta0
107	//Atom2 must be directional atom
108	//GhostBendType examples
109	CH2 HEAD GHOST GhostBendType 0.00176972 129.783
110	CH2 HEAD GHOST GhostBendType 58.84 90.0
111	TB1 HEAD GHOST GhostBendType 58.84 90.0
112	TB2 HEAD GHOST GhostBendType 58.84 90.0
113	TB3 HEAD GHOST GhostBendType 58.84 90.0
114
115	//UreyBradleyBend
116	//Atom1 Atom2 Atom3 UreyBradleyBend Ktheta Theta0 Kub S0
117	//V_UreyBradleyBend = Ktheta(Theta - Theta0)^2 + Kub(S - S0)^2
118	//Ktheta: kcal/mole/rad**2
119	//Theta0: degrees
120	//Kub: kcal/mole/A**2
121	//S0: A
122
123	//CubicBendType
124	//Atom1 Atom2 Atom3 CubicBendType Theta0 K3 K2 K1 K0
125	//V_CubicBendType = K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0
126
127	//QuadraticBendType
128	//Atom1 Atom2 Atom3 QuadraticBendType Theta0 K4 K3 K2 K1 K0
129	//V_QuadraticBendType = K4(Theta - Theta0)^4 + K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0
130
131	//PolynomialBendType
132	//Atom1 Atom2 Atom3 PolynomialBendType Theta0 i Ki [j Kj]
133	//V_PolynomialBendType = Ki(Theta - Theta0)^i + Kj(Theta - Theta0)^j + ...
134
135	end BendTypes
136
137	begin TorsionTypes
138
139	//CubicTorsionType
140	//Atom1 Atom2 Atom3 Atom4 CubicTorsionType k3 k2 k1 k0 ( all are kcal/mol )
141	//V_CubicTorsionType = k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
142	//CubicTorsionType Examples
143	HEAD CH2 CH2 HEAD CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
144	HEAD CH2 CH HEAD CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
145	HEAD CH CH HEAD CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
146	HEAD CH2 CH2 CH3 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
147	HEAD CH2 CH CH3 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
148	HEAD CH CH2 CH3 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
149	HEAD CH CH CH3 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
150	HEAD CH2 CH2 CH2 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
151	HEAD CH2 CH CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
152	HEAD CH CH2 CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
153	HEAD CH CH CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
154	HEAD CH2 CH2 CH CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
155	HEAD CH2 CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
156	HEAD CH CH2 CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
157	HEAD CH CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
158	HEAD TB1 TB1 TB1 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
159	HEAD TB2 TB2 TB2 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
160	HEAD TB3 TB3 TB3 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
161	CH3 CH2 CH2 CH3 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
162	CH3 CH2 CH CH3 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
163	CH3 CH CH CH3 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
164	CH3 CH2 CH2 CH2 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
165	CH3 CH2 CH CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
166	CH3 CH CH2 CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
167	CH3 CH CH CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
168	CH3 CH2 CH2 CH CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
169	CH3 CH2 CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
170	CH3 CH CH2 CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
171	CH3 CH CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
172	CH2 CH2 CH2 CH2 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
173	CH2 CH2 CH CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
174	CH2 CH CH CH2 CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
175	CH2 CH2 CH2 CH CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
176	CH2 CH2 CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
177	CH2 CH CH2 CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
178	CH2 CH CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
179	CH CH2 CH2 CH CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
180	CH CH2 CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
181	CH CH CH CH CubicTorsionType 3.3254 -0.4215 -1.686 1.1661
182	TB1 TB1 TB1 TB1 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
183	TB2 TB2 TB2 TB2 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
184	TB3 TB3 TB3 TB3 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
185	TE1 TB1 TB1 TB1 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
186	TE2 TB2 TB2 TB2 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
187	TE3 TB3 TB3 TB3 CubicTorsionType 5.9602 -0.2568 -3.802 2.1586
188
189	//CharmmTorsionType
190	//Atom1 Atom2 Atom3 Atom4 CharmmTorsionType Kchi n delta [Kchi n delta]
191	//V_CharmmTorsionType = Kchi(1 + cos(n(chi) - delta))
192	//Kchi: kcal/mole
193	//n: multiplicity
194	//delta: degrees
195	//in some cases, a CharmmTorsionType may have two or three terms. If n is equal to 0, it falls back to harmonic form
196
197	//QuadraticTorsionType
198	//Atom1 Atom2 Atom3 Atom4 QuadraticTorsionType k4 k3 k2 k1 k0 ( all are kcal/mol )
199	//V_QuadraticTorsionType = k4(cos phi)^4 + k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
200
201	//PolynomialTorsionType
202	//Atom1 Atom2 Atom3 Atom4 PolynomialTorsionType i Ki [j Kj]
203	//VPolynomialTorsionType = Ki (cos phi)^i + ... + Kj (cos phi)^j
204
205	end TorsionTypes