#  =================== 
#  GATECH BBH CATALOG  
#  =================== 
#  The folder contains the information about gravitational-wave strain for the given GATech BBH Numerical Relativity simulation series. The strain (h+, hx) have been computed in the frame of initial total angular momentum (J = L + S1 + S2). The nomenclauture of the file is "Strain_ll_mm_rr_jinit_runDir.asc" where (l,m) are the spherical modes, rr is extraction radii, jinit is the frame of extraction and runDir is the label of the simulation folder. Each simulation folder also contains a plot of strain vs. time.   


#  --------------------- 
# 	Lq-series 
#  -------------------- 
# 	This series consists of 23 quasicircular, unequal-mass, precessing simulations with 23 distinct spacetimes. All runs have both black hole spins with equal z-components, zero y-component, and opposite x-components. Both have the same spin magnitude of 0.6.The angle, theta, describes the angle that the larger black hole`s spin makes with the z-axis in the xz-plane. The initial parameters of the runs is given below.
 
# No.	 RunDir	 D	 q	 |a1|	 |a2|	 th1L	 th2L	 ph1	 ph2	 th12	 thSL	 thJL	 Mmin(f=30Hz)	 Mmin(f=10Hz) 
# - ---------------------------------------------------------------------------------------------------------
1	 Lq_D6.2_q2.50_a0.6_th000_m140	 6.2	 2.5	 0.6	 0.6	 0	 0	 0	 0	 0	 0	 0	 115	 346 
2	 Lq_D6.2_q2.50_a0.6_th345_m140	 6.2	 2.5	 0.6	 0.6	 15	 15	 -180	 0	 30	 11	 3.85	 115	 346 
3	 Lq_D6.2_q2.50_a0.6_th015_m140	 6.2	 2.5	 0.6	 0.6	 15	 15	 0	 -180	 30	 11	 3.85	 115	 346 
4	 Lq_D6.2_q2.50_a0.6_th330_m140	 6.2	 2.5	 0.6	 0.6	 30	 30	 -180	 0	 60	 22.7	 7.63	 116	 348 
5	 Lq_D6.2_q2.50_a0.6_th030_m140	 6.2	 2.5	 0.6	 0.6	 30	 30	 0	 -180	 60	 22.7	 7.63	 116	 348 
6	 Lq_D6.2_q3.00_a0.6_th030_m140	 6.2	 3	 0.6	 0.6	 30	 30	 0	 -180	 60	 24.8	 9.22	 115	 344 
7	 Lq_D6.2_q2.50_a0.6_th045_m140	 6.2	 2.5	 0.6	 0.6	 45	 45	 0	 -180	 90	 35.9	 11.3	 117	 351 
8	 Lq_D6.2_q2.50_a0.6_th315_m140	 6.2	 2.5	 0.6	 0.6	 45	 45	 -180	 0	 90	 35.9	 11.3	 111	 332 
9	 Lq_D6.2_q3.00_a0.6_th045_m140	 6.2	 3	 0.6	 0.6	 45	 45	 0	 -180	 90	 38.7	 13.7	 116	 347 
10	 Lq_D6_q2.50_a0.6_th300_m120	 6.2	 2.5	 0.6	 0.6	 60	 60	 -180	 0	 120	 51.4	 14.7	 112	 335 
11	 Lq_D6.2_q2.50_a0.6_th300_m140	 6.2	 2.5	 0.6	 0.6	 60	 60	 -180	 0	 120	 51.4	 14.7	 112	 335 
12	 Lq_D6.2_q2.50_a0.6_th060_m140	 6.2	 2.5	 0.6	 0.6	 60	 60	 0	 -180	 120	 51.4	 14.7	 112	 335 
13	 Lq_D6.2_q3.00_a0.6_th060_m140	 6.2	 3	 0.6	 0.6	 60	 60	 0	 -180	 120	 54.2	 17.9	 112	 335 
14	 Lq_D6.2_q2.50_a0.6_th075_m140	 6.2	 2.5	 0.6	 0.6	 75	 75	 0	 -180	 150	 69.7	 17.8	 113	 339 
15	 Lq_D6.2_q2.50_a0.6_th270_m140	 6.2	 2.5	 0.6	 0.6	 90	 90	 -180	 0	 180	 90	 20.3	 114	 343 
16	 Lq_D6.2_q2.50_a0.6_th090_m140	 6.2	 2.5	 0.6	 0.6	 90	 90	 0	 -180	 180	 90	 20.3	 114	 343 
17	 Lq_D6.2_q3.00_a0.6_th270_m140	 6.2	 3	 0.6	 0.6	 90	 90	 -180	 0	 180	 90	 25.1	 115	 344 
18	 Lq_D6.2_q2.50_a0.6_th240_m140	 6.2	 2.5	 0.6	 0.6	 120	 120	 -180	 0	 120	 129	 22.3	 118	 353 
19	 Lq_D6.2_q2.50_a0.6_th120_m140	 6.2	 2.5	 0.6	 0.6	 120	 120	 0	 -180	 120	 129	 22.3	 118	 353 
20	 Lq_D6.2_q3.00_a0.6_th240_m140	 6.2	 3	 0.6	 0.6	 120	 120	 -180	 0	 120	 126	 28.6	 118	 354 
21	 Lq_D6.2_q2.50_a0.6_th150_m140	 6.2	 2.5	 0.6	 0.6	 150	 150	 0	 -180	 60	 157	 16.5	 121	 362 
22	 Lq_D6.2_q2.50_a0.6_th210_m140	 6.2	 2.5	 0.6	 0.6	 150	 150	 -180	 0	 60	 157	 16.5	 121	 362 
23	 Lq_D6.2_q3.00_a0.6_th210_m140	 6.2	 3	 0.6	 0.6	 150	 150	 -180	 0	 60	 155	 22.8	 121	 363 
