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Ticket #693: nmssm.slha

File nmssm.slha, 12.8 KB (added by Juergen Reuter, 10 years ago)

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1	# NMSSMTools OUTPUT IN SLHA FORMAT
2	# Info about spectrum calculator
3	BLOCK DCINFO # Decay Program information
4	1 SDECAY # decay calculator
5	2 1.1a # version number
6	#
7	BLOCK SPINFO # Program information
8	1 NMSSMTools # spectrum calculator
9	2 2 # version number
10	# Input parameters
11	BLOCK MODSEL
12	3 1 # NMSSM PARTICLE CONTENT
13	BLOCK SMINPUTS
14	1 1.27920000E+02 # ALPHA_EM^-1(MZ)
15	2 1.16639000E-05 # GF
16	3 1.17200000E-01 # ALPHA_S(MZ)
17	4 9.11870000E+01 # MZ
18	5 4.21400000E+00 # MB(MB)
19	6 1.71400000E+02 # MTOP (POLE MASS)
20	7 1.77700000E+00 # MTAU
21	# SMINPUTS Beyond SLHA:
22	# MW: 0.80420000E+02
23	# MS: 0.19000000E+00
24	# MC: 0.14000000E+01
25	# VUS: 0.22000000E+00
26	# VCB: 0.40000000E-01
27	# VUB: 0.40000000E-02
28	BLOCK MINPAR
29	3 2.00000000E+00 # TANBETA
30	BLOCK EXTPAR
31	1 6.60000000E+01 # M1
32	2 1.33000000E+02 # M2
33	3 5.00000000E+02 # M3
34	11 -2.50000000E+03 # ATOP
35	12 -2.50000000E+03 # ABOTTOM
36	13 -2.50000000E+03 # ATAU
37	16 -2.50000000E+03 # AMUON
38	124 1.32142454E+03 # MA AT Q_STSB
39	31 2.00000000E+02 # LEFT SELECTRON
40	32 2.00000000E+02 # LEFT SMUON
41	33 2.00000000E+02 # LEFT STAU
42	34 2.00000000E+02 # RIGHT SELECTRON
43	35 2.00000000E+02 # RIGHT SMUON
44	36 2.00000000E+02 # RIGHT STAU
45	41 1.00000000E+03 # LEFT 1ST GEN. SQUARKS
46	42 1.00000000E+03 # LEFT 2ND GEN. SQUARKS
47	43 1.00000000E+03 # LEFT 3RD GEN. SQUARKS
48	44 1.00000000E+03 # RIGHT U-SQUARKS
49	45 1.00000000E+03 # RIGHT C-SQUARKS
50	46 1.00000000E+03 # RIGHT T-SQUARKS
51	47 1.00000000E+03 # RIGHT D-SQUARKS
52	48 1.00000000E+03 # RIGHT S-SQUARKS
53	49 1.00000000E+03 # RIGHT B-SQUARKS
54	61 7.00000000E-01 # LAMBDA
55	62 5.00000000E-02 # KAPPA
56	63 1.28000000E+03 # A_LAMBDA
57	64 0.00000000E+00 # A_KAPPA
58	65 5.30000000E+02 # MU_EFF
59	#
60	BLOCK MASS # Mass spectrum
61	# PDG Code mass particle
62	25 1.37939878E+02 # lightest neutral scalar
63	35 1.51036243E+02 # second neutral scalar
64	45 1.30334293E+03 # third neutral scalar
65	36 5.96257165E+01 # lightest pseudoscalar
66	46 1.30629153E+03 # second pseudoscalar
67	37 1.30417599E+03 # charged Higgs
68	1000001 1.01696025E+03 # ~d_L
69	2000001 1.01614121E+03 # ~d_R
70	1000002 1.01513930E+03 # ~u_L
71	2000002 1.01559487E+03 # ~u_R
72	1000003 1.01696025E+03 # ~s_L
73	2000003 1.01614121E+03 # ~s_R
74	1000004 1.01513930E+03 # ~c_L
75	2000004 1.01559487E+03 # ~c_R
76	1000005 1.01212932E+03 # ~b_1
77	2000005 1.02095935E+03 # ~b_2
78	1000006 7.96731287E+02 # ~t_1
79	2000006 1.21337939E+03 # ~t_2
80	1000011 2.03188224E+02 # ~e_L
81	2000011 2.02735475E+02 # ~e_R
82	1000012 1.93940385E+02 # ~nue_L
83	1000013 2.02005850E+02 # ~mu_1
84	2000013 2.03913673E+02 # ~mu_2
85	1000014 1.93940385E+02 # ~numu_L
86	1000015 1.86734920E+02 # ~tau_1
87	2000015 2.17998882E+02 # ~tau_2
88	1000016 1.93940385E+02 # ~nutau_L
89	1000021 5.98828015E+02 # ~g
90	1000022 6.04865577E+01 # neutralino(1)
91	1000023 9.28436831E+01 # neutralino(2)
92	1000025 1.32541684E+02 # neutralino(3)
93	1000035 5.54855479E+02 # neutralino(4)
94	1000045 -5.56589773E+02 # neutralino(5)
95	1000024 1.28827413E+02 # chargino(1)
96	1000037 5.49514521E+02 # chargino(2)
97	#
98	# Low energy observables
99	BLOCK LOWEN
100	# Exp. 2 Sigma: 3.03E-04 < BR(b -> s gamma) < 4.01E-04:
101	1 3.13932869E-04 # BR(b -> s gamma)
102	11 3.48380275E-04 # (BR(b -> s gamma)+Theor.Err.)
103	12 2.59699716E-04 # (BR(b -> s gamma)-Theor.Err.)
104	# Exp. 2 Sigma: 4.99E-01 < Delta M_d < 5.15E-01:
105	2 6.08694649E-01 # Delta M_d in ps^-1
106	21 1.06078202E+00 # Delta M_d +Theor.Err.
107	22 1.63639006E-01 # Delta M_d -Theor.Err.
108	# Exp. 2 Sigma: 1.753E+01 < Delta Ms < 1.801E+01:
109	3 2.10861742E+01 # Delta M_s in ps^-1
110	31 2.77679166E+01 # Delta M_s +Theor.Err.
111	32 1.45068741E+01 # Delta M_s -Theor.Err.
112	# Exp. 95% C.L.: BR(Bs->mu+mu-) < 5.8E-08:
113	4 3.53378094E-09 # BR(Bs -> mu+mu-)
114	41 6.00206041E-09 # BR(Bs -> mu+mu-)+Theor.Err.
115	42 1.71541464E-09 # BR(Bs -> mu+mu-)-Theor.Err.
116	# Exp. 2 Sigma: 3.40E-05 < BR(B+ > tau+ + nu_tau) < 2.30E-04:
117	5 1.31776436E-04 # BR(B+ -> tau+ + nu_tau)
118	51 2.63604417E-04 # BR(B+ -> tau+ + nu_tau) + Theor.Err.
119	52 5.68715474E-05 # BR(B+ -> tau+ + nu_tau) - Theor.Err.
120	# BSM contr. to the muon anomalous magn. moment:
121	6 9.57874124E-10 # Del_a_mu
122	61 1.25913661E-09 # Del_a_mu + Theor.Err.
123	62 6.56611636E-10 # Del_a_mu - Theor.Err.
124	# Minimal Exp.-SM (2 sigma): 8.77306222E-10
125	# Maximal Exp.-SM (2 sigma): 4.61144414E-09
126	#
127	BLOCK HMIX Q= 1.00000000E+03 # (STOP/SBOTTOM MASSES)
128	1 5.30000000E+02 # MU_EFF
129	2 2.00000402E+00 # TAN(BETA)
130	3 1.71045341E+02 # V(Q)
131	4 1.74616282E+06 # MA**2
132	#
133	# 3*3 Higgs mixing
134	BLOCK NMHMIX
135	1 1 4.50564131E-01 # S_(1,1)
136	1 2 8.80954585E-01 # S_(1,2)
137	1 3 1.44606307E-01 # S_(1,3)
138	2 1 -1.41520206E-02 # S_(2,1)
139	2 2 -1.54911082E-01 # S_(2,2)
140	2 3 9.87827048E-01 # S_(2,3)
141	3 1 8.92631886E-01 # S_(3,1)
142	3 2 -4.47125907E-01 # S_(3,2)
143	3 3 -5.73300897E-02 # S_(3,3)
144	#
145	# 3*3 Pseudoscalar Higgs mixing
146	BLOCK NMAMIX
147	1 1 -7.50660542E-02 # P_(1,1)
148	1 2 -3.75330271E-02 # P_(1,2)
149	1 3 9.96471956E-01 # P_(1,3)
150	2 1 8.91271613E-01 # P_(2,1)
151	2 2 4.45635806E-01 # P_(2,2)
152	2 3 8.39264000E-02 # P_(2,3)
153	#
154	# 3rd generation sfermion mixing
155	BLOCK STOPMIX # Stop mixing matrix
156	1 1 7.07504200E-01 # Rst_(1,1)
157	1 2 7.06709139E-01 # Rst_(1,2)
158	2 1 -7.06709139E-01 # Rst_(2,1)
159	2 2 7.07504200E-01 # Rst_(2,2)
160	BLOCK SBOTMIX # Sbottom mixing matrix
161	1 1 6.73046744E-01 # Rsb_(1,1)
162	1 2 7.39599947E-01 # Rsb_(1,2)
163	2 1 -7.39599947E-01 # Rsb_(2,1)
164	2 2 6.73046744E-01 # Rsb_(2,2)
165	BLOCK STAUMIX # Stau mixing matrix
166	1 1 7.01952956E-01 # Rsl_(1,1)
167	1 2 7.12223313E-01 # Rsl_(1,2)
168	2 1 -7.12223313E-01 # Rsl_(2,1)
169	2 2 7.01952956E-01 # Rsl_(2,2)
170	#
171	# Gaugino-Higgsino mixing
172	BLOCK NMNMIX # 5*5 Neutralino Mixing Matrix
173	1 1 -9.66037828E-01 # N_(1,1)
174	1 2 1.13587538E-01 # N_(1,2)
175	1 3 -7.48164389E-02 # N_(1,3)
176	1 4 9.16233371E-02 # N_(1,4)
177	1 5 -1.99690889E-01 # N_(1,5)
178	2 1 -2.33188653E-01 # N_(2,1)
179	2 2 -2.40637712E-01 # N_(2,2)
180	2 3 -4.57833067E-02 # N_(2,3)
181	2 4 -1.87998694E-01 # N_(2,4)
182	2 5 9.22104616E-01 # N_(2,5)
183	3 1 7.29690341E-02 # N_(3,1)
184	3 2 9.46245785E-01 # N_(3,2)
185	3 3 -1.60927537E-01 # N_(3,3)
186	3 4 4.65450500E-02 # N_(3,4)
187	3 5 2.66890091E-01 # N_(3,5)
188	4 1 8.13454597E-02 # N_(4,1)
189	4 2 -1.80429462E-01 # N_(4,2)
190	4 3 -6.93101931E-01 # N_(4,3)
191	4 4 6.88566908E-01 # N_(4,4)
192	4 5 7.94572387E-02 # N_(4,5)
193	5 1 -2.12697853E-02 # N_(5,1)
194	5 2 3.54328522E-02 # N_(5,2)
195	5 3 6.97150221E-01 # N_(5,3)
196	5 4 6.92799269E-01 # N_(5,4)
197	5 5 1.79729941E-01 # N_(5,5)
198	#
199	BLOCK UMIX # Chargino U Mixing Matrix
200	1 1 9.75213854E-01 # U_(1,1)
201	1 2 -2.21264410E-01 # U_(1,2)
202	2 1 2.21264410E-01 # U_(2,1)
203	2 2 9.75213854E-01 # U_(2,2)
204	#
205	BLOCK VMIX # Chargino V Mixing Matrix
206	1 1 9.89059068E-01 # V_(1,1)
207	1 2 -1.47520031E-01 # V_(1,2)
208	2 1 1.47520031E-01 # V_(2,1)
209	2 2 9.89059068E-01 # V_(2,2)
210	#
211	# Higgs reduced couplings
212	# (as compared to a SM Higgs with same mass)
213	BLOCK REDCOUP
214	# H1
215	1 1 9.84937168E-01 # U-type fermions
216	1 2 1.00749203E+00 # D-type fermions
217	1 3 9.89448139E-01 # W,Z bosons
218	1 4 9.47974985E-01 # Gluons
219	1 5 1.01524789E+00 # Photons
220	# H2
221	2 1 -1.73195855E-01 # U-type fermions
222	2 2 -3.16448801E-02 # D-type fermions
223	2 3 -1.44885660E-01 # W,Z bosons
224	2 4 1.75825786E-01 # Gluons
225	2 5 1.83110131E-01 # Photons
226	# H3
227	3 1 -4.99901961E-01 # U-type fermions
228	3 2 1.99598558E+00 # D-type fermions
229	3 3 -7.24453652E-04 # W,Z bosons
230	3 4 4.95257874E-01 # Gluons
231	3 5 3.73274888E-01 # Photons
232	# A1
233	4 1 -4.19632000E-02 # U-type fermions
234	4 2 -1.67852800E-01 # D-type fermions
235	4 3 0.00000000E+00 # W,Z bosons
236	4 4 4.89387536E-02 # Gluons
237	4 5 1.49043583E-01 # Photons
238	# A2
239	5 1 4.98235978E-01 # U-type fermions
240	5 2 1.99294391E+00 # D-type fermions
241	5 3 0.00000000E+00 # W,Z bosons
242	5 4 5.02916625E-01 # Gluons
243	5 5 5.79797031E-01 # Photons
244	#
245	# GAUGE AND YUKAWA COUPLINGS AT THE SUSY SCALE
246	BLOCK GAUGE Q= 1.00000000E+03 # (SUSY SCALE)
247	1 3.62953646E-01 # g1(Q,DR_bar)
248	2 6.45994456E-01 # g2(Q,DR_bar)
249	3 1.07042561E+00 # g3(Q,DR_bar)
250	BLOCK YU Q= 1.00000000E+03 # (SUSY SCALE)
251	3 3 9.51271692E-01 # HTOP(Q,DR_bar)
252	BLOCK YD Q= 1.00000000E+03 # (SUSY SCALE)
253	3 3 3.16661736E-02 # HBOT(Q,DR_bar)
254	BLOCK YE Q= 1.00000000E+03 # (SUSY SCALE)
255	3 3 2.23242504E-02 # HTAU(Q,DR_bar)
256	#
257	# SOFT TRILINEAR COUPLINGS AT THE SUSY SCALE
258	BLOCK AU Q= 1.00000000E+03 # (SUSY SCALE)
259	3 3 -2.50000000E+03 # ATOP
260	BLOCK AD Q= 1.00000000E+03 # (SUSY SCALE)
261	3 3 -2.50000000E+03 # ABOT
262	BLOCK AE Q= 1.00000000E+03 # (SUSY SCALE)
263	2 2 -2.50000000E+03 # AMUON
264	3 3 -2.50000000E+03 # ATAU
265	#
266	# SOFT MASSES AT THE SUSY SCALE
267	BLOCK MSOFT Q= 1.00000000E+03 # (SUSY SCALE)
268	1 6.60000000E+01 # M1
269	2 1.33000000E+02 # M2
270	3 5.00000000E+02 # M3
271	21 1.10716214E+06 # M_HD^2
272	22 9.26541180E+04 # M_HU^2
273	31 2.00000000E+02 # M_eL
274	32 2.00000000E+02 # M_muL
275	33 2.00000000E+02 # M_tauL
276	34 2.00000000E+02 # M_eR
277	35 2.00000000E+02 # M_muR
278	36 2.00000000E+02 # M_tauR
279	41 1.00000000E+03 # M_q1L
280	42 1.00000000E+03 # M_q2L
281	43 1.00000000E+03 # M_q3L
282	44 1.00000000E+03 # M_uR
283	45 1.00000000E+03 # M_cR
284	46 1.00000000E+03 # M_tR
285	47 1.00000000E+03 # M_dR
286	48 1.00000000E+03 # M_sR
287	49 1.00000000E+03 # M_bR
288	#
289	# NMSSM SPECIFIC PARAMETERS THE SUSY SCALE
290	BLOCK NMSSMRUN Q= 1.00000000E+03 # (SUSY SCALE)
291	1 7.00000000E-01 # LAMBDA(Q,DR_bar)
292	2 5.00000000E-02 # KAPPA(Q,DR_bar)
293	3 1.28000000E+03 # ALAMBDA
294	4 0.00000000E+00 # AKAPPA
295	5 5.30000000E+02 # LAMBDA*<S>=MU_EFF
296	10 -2.52997857E+03 # M_S^2
297	#
298	# GAUGE AND YUKAWA COUPLINGS AT THE GUT SCALE
299	BLOCK GAUGE Q= 2.29965914E+16 # (GUT SCALE)
300	1 7.15161543E-01 # g1(MGUT,DR_bar), GUT normalization
301	2 7.15161543E-01 # g2(MGUT,DR_bar)
302	3 7.04752503E-01 # g3(MGUT,DR_bar)
303	BLOCK YU Q= 2.29965914E+16 # (GUT SCALE)
304	3 3 1.26605005E+00 # HTOP(MGUT,DR_bar)
305	BLOCK YD Q= 2.29965914E+16 # (GUT SCALE)
306	3 3 1.77039818E-02 # HBOT(MGUT,DR_bar)
307	BLOCK YE Q= 2.29965914E+16 # (GUT SCALE)
308	3 3 2.12870330E-02 # HTAU(MGUT,DR_bar)
309	#
310	# SOFT TRILINEAR COUPLINGS AT THE GUT SCALE
311	BLOCK AU Q= 2.29965914E+16 # (GUT SCALE)
312	3 3 -2.24096502E+04 # ATOP
313	BLOCK AD Q= 2.29965914E+16 # (GUT SCALE)
314	3 3 -8.82694798E+03 # ABOT
315	BLOCK AE Q= 2.29965914E+16 # (GUT SCALE)
316	2 2 -6.70046635E+03 # AMUON
317	3 3 -6.70179631E+03 # ATAU
318	#
319	# SOFT MASSES SQUARED AT THE GUT SCALE
320	BLOCK MSOFT Q= 2.29965914E+16 # (GUT SCALE)
321	1 9.60855037E+01 # M1
322	2 9.02669731E+01 # M2
323	3 1.86489519E+02 # M3
324	21 2.00803775E+08 # M_HD^2
325	22 3.73733067E+08 # M_HU^2
326	31 1.81028064E+05 # M_eL^2
327	32 1.81028064E+05 # M_muL^2
328	33 1.84122555E+05 # M_tauL^2
329	34 -5.72456465E+04 # M_eR^2
330	35 -5.72456465E+04 # M_muR^2
331	36 -5.09113104E+04 # M_tauR^2
332	41 9.74367148E+05 # M_q1L^2
333	42 9.74367148E+05 # M_q2L^2
334	43 5.51631010E+07 # M_q3L^2
335	44 1.03618049E+06 # M_uR^2
336	45 1.03618049E+06 # M_cR^2
337	46 1.12985190E+08 # M_tR^2
338	47 8.93362398E+05 # M_dR^2
339	48 8.93362398E+05 # M_sR^2
340	49 9.02474801E+05 # M_bR^2
341	#
342	# NMSSM SPECIFIC PARAMETERS THE GUT SCALE
343	BLOCK NMSSMRUN Q= 2.29965914E+16 # (GUT SCALE)
344	1 3.08560696E+00 # LAMBDA(MGUT,DR_bar)
345	2 3.65099752E-01 # KAPPA(MGUT,DR_bar)
346	3 -2.42811436E+04 # ALAMBDA
347	4 -2.59902190E+04 # AKAPPA
348	10 4.03730930E+08 # M_S^2

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