OOPSE-4/forceFields/DUFF2.frc

// This is the forcefield file for the Dipolar Unified-atom Force Field (DUFF)
//
// The sections are divided into AtomTypes
//
//any parameters (but not all) are derived from the TRAPPE force field
// of Siepmann's group.
begin AtomTypes    
//Name          mass     (amu)
CH4             16.05           
CH3             15.04           
CH2             14.03           
CH              13.02           
SSD             18.0153         
SSD1            18.0153 
SSD_E           18.0153
SSD_RF          18.0153
O_TIP3P         15.9994                 
O_TIP4P         15.9994
O_TIP5P         15.9994 
O_SPCE          15.9994
O_SPC           15.9994 
H_TIP3P         1.0079
H_TIP4P         1.0079
H_TIP5P         1.0079
H_SPCE          1.0079
H_SPC           1.0079
EP_TIP4P        0.0
EP_TIP5P        0.0
HEAD            196             
TB1             14.03           
TE1             15.04           
TB2             21.05           
TE2             22.56           
TB3             28.06           
TE3             30.08   
H               1.00794         
He              4.002602        
C               12.0107         
N               14.00674        
O               15.9994         
F               18.9984032      
Ne              20.1797         
S               32.066          
Cl              35.4527         
Ar              39.948          
Br              79.904          
Kr              83.80           
end AtomTypes

begin DirectionalAtomTypes
//Name          I_xx    I_yy    I_zz    (All moments in (amu*Ang^2)
SSD             1.7696  0.6145  1.1550  
SSD1            1.7696  0.6145  1.1550  
SSD_E           1.7696  0.6145  1.1550  
SSD_RF          1.7696  0.6145  1.1550  
HEAD            1125    1125    250
end DirectionalAtomTypes                    
                        
begin LennardJonesAtomTypes
//Name  epsilon                 sigma   
SSD       0.152                 3.051                                   
SSD1      0.152                 3.016 
SSD_E     0.152                 3.035
SSD_RF    0.152                 3.019 
O_TIP3P   0.1521                3.15061 
O_TIP4P   0.1550                3.15365 
O_TIP5P   0.16                  3.12   
O_SPCE    0.15532               3.16549
O_SPC     0.15532               3.16549
CH4       0.279                 3.73
CH3       0.185                 3.75
CH2       0.0866                3.95
CH        0.0189                4.68
HEAD      0.185                 .75                                     
TB1       0.0866                4.0                              
TE1       0.185                 4.0                                  
TB2       0.25                  6.0                                  
TE2       0.5                   6.0                                  
TB3       0.5                   8.0                                   
TE3       0.75                  8.0     
H         0.017090056482        2.81
He        0.020269601874        2.28
C         0.101745452544        3.35
N         0.074123151951        3.31
O         0.122412497592        2.95
F         0.104924997936        2.83
Ne        0.09339914589         2.72
S         0.36366050421         3.52
Cl        0.344781953445        3.35
Ar        0.238068461226        3.41
Br        0.511111921764        3.54
Kr        0.32590340268         3.83                  
end LennardJonesAtomTypes

begin ElectrostaticAtomTypes
//only support up tp quadrupole.
//Below are possible format
//name 0 charge
//name 1 charge dipole [phi, theta, psi]
//name 2 charge dipole Qxx Qyy Qzz [phi, theta, psi]
//note: [phi, theta, psi] is optional, by default, they are [0, 0, 0]
SSD_E           1       0.0     2.42
SSD_RF          1       0.0     2.48
SSD             1       0.0     2.35
SSD1            1       0.0     2.35
O_TIP3P         0       -0.834
O_SPCE          0       -0.8476
O_SPC           0       -0.82
H_TIP3P         0       0.417
H_TIP4P         0       0.520
H_TIP5P         0       0.241
H_SPCE          0       0.4238
H_SPC           0       0.42
EP_TIP4P        0       -1.040
EP_TIP5P        0       -0.241
HEAD            0       20.6
end ElectrostaticAtomTypes

begin StickyAtomTypes
//name w0       v0 (kcal/mol)   v0p     rl (Ang)  ru    rlp     rup
SSD_E   0.07715 3.90            3.90    2.40      3.80  2.75    3.35
SSD_RF  0.07715 3.90            3.90    2.40      3.80  2.75    3.35
SSD     0.07715 3.7284          3.7284  2.75      3.35  2.75    4.0
SSD1    0.07715 3.6613          3.6613  2.75      3.35  2.75    4.0
end StickyAtomTypes


begin BondTypes

//Atom1 Atom2   Fixed
//V_Fixed = 0

//Atom1 Atom2   Harmonic        b0      Kb (kcal/mol)
//V_Harmonic = 0.5*Kb(b- bo)^2
//Harmonic Examples
HEAD    CH3     Harmonic                2.75            260
HEAD    CH2     Harmonic                2.75            260
HEAD    CH      Harmonic                2.75            260
HEAD    TB1     Harmonic                2.76            260
HEAD    TB2     Harmonic                3.20            260
HEAD    TB3     Harmonic                3.63            260
CH3     CH3     Harmonic                1.526           260
CH3     CH2     Harmonic                1.526           260
CH3     CH      Harmonic                1.526           260
CH2     CH2     Harmonic                1.526           260
CH2     CH      Harmonic                1.526           260
CH      CH      Harmonic                1.526           260
TB1     TB1     Harmonic                1.526           260
TB2     TB2     Harmonic                2.34            260
TB3     TB3     Harmonic                3.12            260
TB1     TE1     Harmonic                1.526           260
TB2     TE2     Harmonic                2.34            260
TB3     TE3     Harmonic                3.12            260

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


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


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


end BondTypes

begin BendTypes

//Harmonic
//Atom1 Atom2   Atom3   Harmonic        Theta0  Ktheta
//V_Harmonic = 0.5*Ktheta(Theta - Theta0)^2
//Ktheta: kcal/mole/rad**2
//Theta0: degrees
//Harmonic examples
//
HEAD    CH2     HEAD    Harmonic        114.0   117.68
HEAD    CH2     CH3     Harmonic        114.0   117.68
HEAD    CH2     CH2     Harmonic        114.0   117.68
HEAD    TB1     TB1     Harmonic        114.0   117.68
HEAD    TB2     TB2     Harmonic        114.0   117.68
HEAD    TB3     TB3     Harmonic        114.0   117.68
HEAD    CH2     CH      Harmonic        114.0   117.68
HEAD    CH      CH3     Harmonic        112.0   117.68
HEAD    CH      CH2     Harmonic        112.0   117.68
HEAD    CH      CH      Harmonic        112.0   117.68
CH3     CH2     CH3     Harmonic        114.0   117.68
CH3     CH2     CH2     Harmonic        114.0   117.68
CH3     CH2     CH      Harmonic        114.0   117.68
CH3     CH      CH3     Harmonic        112.0   117.68
CH3     CH      CH2     Harmonic        112.0   117.68
CH3     CH      CH      Harmonic        112.0   117.68
CH2     CH2     CH2     Harmonic        114.0   117.68
CH2     CH2     CH      Harmonic        114.0   117.68
CH2     CH      CH2     Harmonic        112.0   117.68
CH2     CH      CH      Harmonic        112.0   117.68
CH      CH2     CH      Harmonic        114.0   117.68
CH      CH      CH      Harmonic        112.0   117.68
TB1     TB1     TB1     Harmonic        114.0   117.68
TB2     TB2     TB2     Harmonic        114.0   117.68
TB3     TB3     TB3     Harmonic        114.0   117.68
TE1     TB1     TB1     Harmonic        114.0   117.68
TE2     TB2     TB2     Harmonic        114.0   117.68
TE3     TB3     TB3     Harmonic        114.0   117.68

//GhostBend
//Atom1 Atom2   GHOST   GhostBend       Theta0  Ktheta
//Atom2 must be directional atom
//Ghost examples
CH2     HEAD    GHOST   GhostBend       129.783 0.00354
CH2     HEAD    GHOST   GhostBend       90.0    117.68  
TB1     HEAD    GHOST   GhostBend       90.0    117.68  
TB2     HEAD    GHOST   GhostBend       90.0    117.68
TB3     HEAD    GHOST   GhostBend       90.0    117.68  

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

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

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

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

end BendTypes

begin TorsionTypes

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

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

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

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

end TorsionTypes


Revision:	1956
Committed:	Mon Jan 17 22:17:20 2005 UTC (19 years, 5 months ago) by tim
File size:	9357 byte(s)
Log Message:	forget to set dipole for lipid head group
#	User	Rev	Content
1	tim	1921	// This is the forcefield file for the Dipolar Unified-atom Force Field (DUFF)
2			//
3			// The sections are divided into AtomTypes
4			//
5			//any parameters (but not all) are derived from the TRAPPE force field
6			// of Siepmann's group.
7			begin AtomTypes
8			//Name mass (amu)
9			CH4 16.05
10			CH3 15.04
11			CH2 14.03
12			CH 13.02
13			SSD 18.0153
14			SSD1 18.0153
15			SSD_E 18.0153
16			SSD_RF 18.0153
17			O_TIP3P 15.9994
18			O_TIP4P 15.9994
19			O_TIP5P 15.9994
20			O_SPCE 15.9994
21			O_SPC 15.9994
22			H_TIP3P 1.0079
23			H_TIP4P 1.0079
24			H_TIP5P 1.0079
25			H_SPCE 1.0079
26			H_SPC 1.0079
27			EP_TIP4P 0.0
28			EP_TIP5P 0.0
29			HEAD 196
30			TB1 14.03
31			TE1 15.04
32			TB2 21.05
33			TE2 22.56
34			TB3 28.06
35			TE3 30.08
36			H 1.00794
37			He 4.002602
38			C 12.0107
39			N 14.00674
40			O 15.9994
41			F 18.9984032
42			Ne 20.1797
43			S 32.066
44			Cl 35.4527
45			Ar 39.948
46			Br 79.904
47			Kr 83.80
48			end AtomTypes
49
50			begin DirectionalAtomTypes
51			//Name I_xx I_yy I_zz (All moments in (amu*Ang^2)
52			SSD 1.7696 0.6145 1.1550
53			SSD1 1.7696 0.6145 1.1550
54			SSD_E 1.7696 0.6145 1.1550
55			SSD_RF 1.7696 0.6145 1.1550
56			HEAD 1125 1125 250
57			end DirectionalAtomTypes
58
59			begin LennardJonesAtomTypes
60			//Name epsilon sigma
61			SSD 0.152 3.051
62			SSD1 0.152 3.016
63			SSD_E 0.152 3.035
64			SSD_RF 0.152 3.019
65			O_TIP3P 0.1521 3.15061
66			O_TIP4P 0.1550 3.15365
67			O_TIP5P 0.16 3.12
68			O_SPCE 0.15532 3.16549
69			O_SPC 0.15532 3.16549
70			CH4 0.279 3.73
71			CH3 0.185 3.75
72			CH2 0.0866 3.95
73			CH 0.0189 4.68
74			HEAD 0.185 .75
75			TB1 0.0866 4.0
76			TE1 0.185 4.0
77			TB2 0.25 6.0
78			TE2 0.5 6.0
79			TB3 0.5 8.0
80			TE3 0.75 8.0
81			H 0.017090056482 2.81
82			He 0.020269601874 2.28
83			C 0.101745452544 3.35
84			N 0.074123151951 3.31
85			O 0.122412497592 2.95
86			F 0.104924997936 2.83
87			Ne 0.09339914589 2.72
88			S 0.36366050421 3.52
89			Cl 0.344781953445 3.35
90			Ar 0.238068461226 3.41
91			Br 0.511111921764 3.54
92			Kr 0.32590340268 3.83
93			end LennardJonesAtomTypes
94
95			begin ElectrostaticAtomTypes
96			//only support up tp quadrupole.
97			//Below are possible format
98			//name 0 charge
99			//name 1 charge dipole [phi, theta, psi]
100			//name 2 charge dipole Qxx Qyy Qzz [phi, theta, psi]
101			//note: [phi, theta, psi] is optional, by default, they are [0, 0, 0]
102			SSD_E 1 0.0 2.42
103			SSD_RF 1 0.0 2.48
104			SSD 1 0.0 2.35
105			SSD1 1 0.0 2.35
106			O_TIP3P 0 -0.834
107			O_SPCE 0 -0.8476
108			O_SPC 0 -0.82
109			H_TIP3P 0 0.417
110			H_TIP4P 0 0.520
111			H_TIP5P 0 0.241
112			H_SPCE 0 0.4238
113			H_SPC 0 0.42
114			EP_TIP4P 0 -1.040
115			EP_TIP5P 0 -0.241
116	tim	1956	HEAD 0 20.6
117	tim	1921	end ElectrostaticAtomTypes
118
119			begin StickyAtomTypes
120			//name w0 v0 (kcal/mol) v0p rl (Ang) ru rlp rup
121			SSD_E 0.07715 3.90 3.90 2.40 3.80 2.75 3.35
122			SSD_RF 0.07715 3.90 3.90 2.40 3.80 2.75 3.35
123			SSD 0.07715 3.7284 3.7284 2.75 3.35 2.75 4.0
124			SSD1 0.07715 3.6613 3.6613 2.75 3.35 2.75 4.0
125			end StickyAtomTypes
126
127
128			begin BondTypes
129
130			//Atom1 Atom2 Fixed
131			//V_Fixed = 0
132
133			//Atom1 Atom2 Harmonic b0 Kb (kcal/mol)
134			//V_Harmonic = 0.5*Kb(b- bo)^2
135			//Harmonic Examples
136			HEAD CH3 Harmonic 2.75 260
137			HEAD CH2 Harmonic 2.75 260
138			HEAD CH Harmonic 2.75 260
139			HEAD TB1 Harmonic 2.76 260
140			HEAD TB2 Harmonic 3.20 260
141			HEAD TB3 Harmonic 3.63 260
142			CH3 CH3 Harmonic 1.526 260
143			CH3 CH2 Harmonic 1.526 260
144			CH3 CH Harmonic 1.526 260
145			CH2 CH2 Harmonic 1.526 260
146			CH2 CH Harmonic 1.526 260
147			CH CH Harmonic 1.526 260
148			TB1 TB1 Harmonic 1.526 260
149			TB2 TB2 Harmonic 2.34 260
150			TB3 TB3 Harmonic 3.12 260
151			TB1 TE1 Harmonic 1.526 260
152			TB2 TE2 Harmonic 2.34 260
153			TB3 TE3 Harmonic 3.12 260
154
155			//Atom1 Atom2 Cubic b0 K3 K2 K1 K0
156			//V_Cubic = K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0
157
158
159			//Atom1 Atom2 Quartic b0 K4 K3 K2 K1 K0
160			//V_Quartic = K4(b - b0)^4 + K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0
161
162
163			//Atom1 Atom2 Polynomial b0 i Ki [j Kj]
164			//V_Quartic = Ki(b - b0)^i + Kj(b - b0)^j + ...
165
166
167			end BondTypes
168
169			begin BendTypes
170
171			//Harmonic
172			//Atom1 Atom2 Atom3 Harmonic Theta0 Ktheta
173			//V_Harmonic = 0.5*Ktheta(Theta - Theta0)^2
174			//Ktheta: kcal/mole/rad**2
175			//Theta0: degrees
176			//Harmonic examples
177			//
178			HEAD CH2 HEAD Harmonic 114.0 117.68
179			HEAD CH2 CH3 Harmonic 114.0 117.68
180			HEAD CH2 CH2 Harmonic 114.0 117.68
181			HEAD TB1 TB1 Harmonic 114.0 117.68
182			HEAD TB2 TB2 Harmonic 114.0 117.68
183			HEAD TB3 TB3 Harmonic 114.0 117.68
184			HEAD CH2 CH Harmonic 114.0 117.68
185			HEAD CH CH3 Harmonic 112.0 117.68
186			HEAD CH CH2 Harmonic 112.0 117.68
187			HEAD CH CH Harmonic 112.0 117.68
188			CH3 CH2 CH3 Harmonic 114.0 117.68
189			CH3 CH2 CH2 Harmonic 114.0 117.68
190			CH3 CH2 CH Harmonic 114.0 117.68
191			CH3 CH CH3 Harmonic 112.0 117.68
192			CH3 CH CH2 Harmonic 112.0 117.68
193			CH3 CH CH Harmonic 112.0 117.68
194			CH2 CH2 CH2 Harmonic 114.0 117.68
195			CH2 CH2 CH Harmonic 114.0 117.68
196			CH2 CH CH2 Harmonic 112.0 117.68
197			CH2 CH CH Harmonic 112.0 117.68
198			CH CH2 CH Harmonic 114.0 117.68
199			CH CH CH Harmonic 112.0 117.68
200			TB1 TB1 TB1 Harmonic 114.0 117.68
201			TB2 TB2 TB2 Harmonic 114.0 117.68
202			TB3 TB3 TB3 Harmonic 114.0 117.68
203			TE1 TB1 TB1 Harmonic 114.0 117.68
204			TE2 TB2 TB2 Harmonic 114.0 117.68
205			TE3 TB3 TB3 Harmonic 114.0 117.68
206
207			//GhostBend
208			//Atom1 Atom2 GHOST GhostBend Theta0 Ktheta
209			//Atom2 must be directional atom
210			//Ghost examples
211			CH2 HEAD GHOST GhostBend 129.783 0.00354
212			CH2 HEAD GHOST GhostBend 90.0 117.68
213			TB1 HEAD GHOST GhostBend 90.0 117.68
214			TB2 HEAD GHOST GhostBend 90.0 117.68
215			TB3 HEAD GHOST GhostBend 90.0 117.68
216
217			//UreyBradley
218			//Atom1 Atom2 Atom3 UreyBradley Theta0 Ktheta S0 Kub
219			//V_UreyBradleyBend = Ktheta(Theta - Theta0)^2 + Kub(S - S0)^2
220			//Ktheta: kcal/mole/rad**2
221			//Theta0: degrees
222			//Kub: kcal/mole/A**2
223			//S0: A
224
225			//Cubic
226			//Atom1 Atom2 Atom3 Cubic Theta0 K3 K2 K1 K0
227			//V_Cubic = K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0
228
229			//Quartic
230			//Atom1 Atom2 Atom3 Quartic Theta0 K4 K3 K2 K1 K0
231			//V_Quartic = K4(Theta - Theta0)^4 + K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0
232
233			//Polynomial
234			//Atom1 Atom2 Atom3 Polynomial Theta0 i Ki [j Kj]
235			//V_Polynomial = Ki(Theta - Theta0)^i + Kj(Theta - Theta0)^j + ...
236
237			end BendTypes
238
239			begin TorsionTypes
240
241			//Cubic
242			//Atom1 Atom2 Atom3 Atom4 Cubic k3 k2 k1 k0 ( all are kcal/mol )
243			//V_Cubic = k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
244			//Cubic Examples
245			HEAD CH2 CH2 HEAD Cubic 5.9602 -0.2568 -3.802 2.1586
246			HEAD CH2 CH HEAD Cubic 3.3254 -0.4215 -1.686 1.1661
247			HEAD CH CH HEAD Cubic 3.3254 -0.4215 -1.686 1.1661
248			HEAD CH2 CH2 CH3 Cubic 5.9602 -0.2568 -3.802 2.1586
249			HEAD CH2 CH CH3 Cubic 3.3254 -0.4215 -1.686 1.1661
250			HEAD CH CH2 CH3 Cubic 3.3254 -0.4215 -1.686 1.1661
251			HEAD CH CH CH3 Cubic 3.3254 -0.4215 -1.686 1.1661
252			HEAD CH2 CH2 CH2 Cubic 5.9602 -0.2568 -3.802 2.1586
253			HEAD CH2 CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
254			HEAD CH CH2 CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
255			HEAD CH CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
256			HEAD CH2 CH2 CH Cubic 5.9602 -0.2568 -3.802 2.1586
257			HEAD CH2 CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
258			HEAD CH CH2 CH Cubic 3.3254 -0.4215 -1.686 1.1661
259			HEAD CH CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
260			HEAD TB1 TB1 TB1 Cubic 5.9602 -0.2568 -3.802 2.1586
261			HEAD TB2 TB2 TB2 Cubic 5.9602 -0.2568 -3.802 2.1586
262			HEAD TB3 TB3 TB3 Cubic 5.9602 -0.2568 -3.802 2.1586
263			CH3 CH2 CH2 CH3 Cubic 5.9602 -0.2568 -3.802 2.1586
264			CH3 CH2 CH CH3 Cubic 3.3254 -0.4215 -1.686 1.1661
265			CH3 CH CH CH3 Cubic 3.3254 -0.4215 -1.686 1.1661
266			CH3 CH2 CH2 CH2 Cubic 5.9602 -0.2568 -3.802 2.1586
267			CH3 CH2 CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
268			CH3 CH CH2 CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
269			CH3 CH CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
270			CH3 CH2 CH2 CH Cubic 5.9602 -0.2568 -3.802 2.1586
271			CH3 CH2 CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
272			CH3 CH CH2 CH Cubic 3.3254 -0.4215 -1.686 1.1661
273			CH3 CH CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
274			CH2 CH2 CH2 CH2 Cubic 5.9602 -0.2568 -3.802 2.1586
275			CH2 CH2 CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
276			CH2 CH CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
277			CH2 CH2 CH2 CH Cubic 5.9602 -0.2568 -3.802 2.1586
278			CH2 CH2 CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
279			CH2 CH CH2 CH Cubic 3.3254 -0.4215 -1.686 1.1661
280			CH2 CH CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
281			CH CH2 CH2 CH Cubic 5.9602 -0.2568 -3.802 2.1586
282			CH CH2 CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
283			CH CH CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
284			TB1 TB1 TB1 TB1 Cubic 5.9602 -0.2568 -3.802 2.1586
285			TB2 TB2 TB2 TB2 Cubic 5.9602 -0.2568 -3.802 2.1586
286			TB3 TB3 TB3 TB3 Cubic 5.9602 -0.2568 -3.802 2.1586
287			TE1 TB1 TB1 TB1 Cubic 5.9602 -0.2568 -3.802 2.1586
288			TE2 TB2 TB2 TB2 Cubic 5.9602 -0.2568 -3.802 2.1586
289			TE3 TB3 TB3 TB3 Cubic 5.9602 -0.2568 -3.802 2.1586
290
291			//Charmm
292			//Atom1 Atom2 Atom3 Atom4 Charmm Kchi n delta [Kchi n delta]
293			//V_Charmm = Kchi(1 + cos(n(chi) - delta))
294			//Kchi: kcal/mole
295			//n: multiplicity
296			//delta: degrees
297			//in some cases, a Charmm may have two or three terms. If n is equal to 0, it falls back to harmonic form
298
299			//Quartic
300			//Atom1 Atom2 Atom3 Atom4 Quartic k4 k3 k2 k1 k0 ( all are kcal/mol )
301			//V_Quartic = k4(cos phi)^4 + k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
302
303			//Polynomial
304			//Atom1 Atom2 Atom3 Atom4 Polynomial i Ki [j Kj]
305			//VPolynomial = Ki (cos phi)^i + ... + Kj (cos phi)^j
306
307			end TorsionTypes
308
309