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-rw-r--r--examples/answ.Diabolo2OPO_seed_profile.txt32
-rw-r--r--examples/answ.txt32
-rw-r--r--examples/answ.txt.example_with_coupling_mirror_taken_in_account32
-rw-r--r--examples/good_mode_matching.txt71
4 files changed, 0 insertions, 167 deletions
diff --git a/examples/answ.Diabolo2OPO_seed_profile.txt b/examples/answ.Diabolo2OPO_seed_profile.txt
deleted file mode 100644
index 34f59a8..0000000
--- a/examples/answ.Diabolo2OPO_seed_profile.txt
+++ /dev/null
@@ -1,32 +0,0 @@
-source("abcd.m")
-##########################################
-lambda= 1.064E-6
-Ltot= 0.55
-r0= 1e100
-w0= 0.00675
-f1=0.1526
-lns1.abcd=abcd_lens( f1)
-lns1.x= 0.2
-f2=0.019
-lns2.abcd=abcd_lens( f2)
-lns2.x= lns1.x+ f1 + f2
-lns3.abcd=abcd_lens( 0.0629)
-lns3.x= 0.500
-# befrore we calculate final waste we need to take in account propagation through the thick mirror
-# since we try to match to the waste right in front of front coupling mirror
-r_at_mirror=.01
-w_at_mirror=83.729e-6
-q_at_mirror=waste_r2q(w_at_mirror, r_at_mirror, lambda)
-n_fused_cilica=1.44968
-R_of_mirror=.01
-mirror_thickness=6.35e-3
-f_of_mirrr_formed_lense=1/((n_fused_cilica-1)*(1/(-R_of_mirror)))
-abcd_of_mirrr_formed_lense=abcd_lens(f_of_mirrr_formed_lense)
-abcd_of_propagation_through_mirror=abcd_free_space(mirror_thickness/n_fused_cilica)
-abcd_of_thick_mirror=abcd_of_propagation_through_mirror*abcd_of_mirrr_formed_lense
-# q right in front of front coupling mirror of the cavity
-q_infront_of_mirror=q_after_element(q_at_mirror, abcd_of_thick_mirror)
-wf=q2waste(q_infront_of_mirror,lambda)
-# we need minus for rf since we will solve injection to the cavity problem
-rf= - q2radius(q_infront_of_mirror,lambda)
-##########################################
diff --git a/examples/answ.txt b/examples/answ.txt
deleted file mode 100644
index 789bbd0..0000000
--- a/examples/answ.txt
+++ /dev/null
@@ -1,32 +0,0 @@
-source("abcd.m")
-##########################################
-lambda= 1.064E-6
-Ltot= 0.55
-r0= 1e100
-w0= 0.00675
-f1=0.1526;
-lns1.abcd=abcd_lens( f1) ;
-lns1.x= 0.2;
-f2=0.019;
-lns2.abcd=abcd_lens( f2) ;
-lns2.x= lns1.x+ f1 + f2;
-lns3.abcd=abcd_lens( 0.0629) ;
-lns3.x= 0.500;
-# befrore we calculate final waste we need to take in account propagation through the thick mirror
-# since we try to match to the waste right in front of front coupling mirror
-r_at_mirror=.01;
-w_at_mirror=83.729e-6;
-q_at_mirror=waste_r2q(w_at_mirror, r_at_mirror, lambda);
-n_fused_cilica=1.44968;
-R_of_mirror=.01;
-mirror_thickness=6.35e-3;
-f_of_mirrr_formed_lense=1/((n_fused_cilica-1)*(1/(-R_of_mirror)));
-abcd_of_mirrr_formed_lense=abcd_lens(f_of_mirrr_formed_lense);
-abcd_of_propagation_through_mirror=abcd_free_space(mirror_thickness/n_fused_cilica);
-abcd_of_thick_mirror=abcd_of_propagation_through_mirror*abcd_of_mirrr_formed_lense;
-# q right in front of front coupling mirror of the cavity
-q_infront_of_mirror=q_after_element(q_at_mirror, abcd_of_thick_mirror);
-wf=q2waste(q_infront_of_mirror,lambda)
-# we need minus for rf since we will solve injection to the cavity problem
-rf= - q2radius(q_infront_of_mirror,lambda)
-##########################################
diff --git a/examples/answ.txt.example_with_coupling_mirror_taken_in_account b/examples/answ.txt.example_with_coupling_mirror_taken_in_account
deleted file mode 100644
index 34f59a8..0000000
--- a/examples/answ.txt.example_with_coupling_mirror_taken_in_account
+++ /dev/null
@@ -1,32 +0,0 @@
-source("abcd.m")
-##########################################
-lambda= 1.064E-6
-Ltot= 0.55
-r0= 1e100
-w0= 0.00675
-f1=0.1526
-lns1.abcd=abcd_lens( f1)
-lns1.x= 0.2
-f2=0.019
-lns2.abcd=abcd_lens( f2)
-lns2.x= lns1.x+ f1 + f2
-lns3.abcd=abcd_lens( 0.0629)
-lns3.x= 0.500
-# befrore we calculate final waste we need to take in account propagation through the thick mirror
-# since we try to match to the waste right in front of front coupling mirror
-r_at_mirror=.01
-w_at_mirror=83.729e-6
-q_at_mirror=waste_r2q(w_at_mirror, r_at_mirror, lambda)
-n_fused_cilica=1.44968
-R_of_mirror=.01
-mirror_thickness=6.35e-3
-f_of_mirrr_formed_lense=1/((n_fused_cilica-1)*(1/(-R_of_mirror)))
-abcd_of_mirrr_formed_lense=abcd_lens(f_of_mirrr_formed_lense)
-abcd_of_propagation_through_mirror=abcd_free_space(mirror_thickness/n_fused_cilica)
-abcd_of_thick_mirror=abcd_of_propagation_through_mirror*abcd_of_mirrr_formed_lense
-# q right in front of front coupling mirror of the cavity
-q_infront_of_mirror=q_after_element(q_at_mirror, abcd_of_thick_mirror)
-wf=q2waste(q_infront_of_mirror,lambda)
-# we need minus for rf since we will solve injection to the cavity problem
-rf= - q2radius(q_infront_of_mirror,lambda)
-##########################################
diff --git a/examples/good_mode_matching.txt b/examples/good_mode_matching.txt
deleted file mode 100644
index edc3208..0000000
--- a/examples/good_mode_matching.txt
+++ /dev/null
@@ -1,71 +0,0 @@
-##########################################
-lambda= 1.064E-6
-Ltot= 1
-r0= 1.0E+100
-w0= 3.79E-4
-lns1.abcd=abcd_lens( 0.1 )
-lns1.x= 0.40728817924285
-lns2.abcd=abcd_lens( 0.1 )
-lns2.x= 0.89886773789558
-#final waste= 3.749698730032165E-5
-#final radius= - 1268.173986167352
-##########################################
-lambda= 1.064E-6
-Ltot= 1
-r0= 1.0E+100
-w0= 3.79E-4
-lns1.abcd=abcd_lens( 0.203 )
-lns1.x= 0.16320787900106
-lns2.abcd=abcd_lens( 0.075 )
-lns2.x= 0.94890568753623
-#final waste= 3.749699833345134E-5
-#final radius= - 121752.7490043464
-##########################################
-lambda= 1.064E-6
-Ltot= 1
-r0= 1.0E+100
-w0= 3.79E-4
-lns1.abcd=abcd_lens( 0.203 )
-lns1.x= 0.92596138503271
-lns2.abcd=abcd_lens( 0.075 )
-lns2.x= 0.98039092734341
-#final waste= 3.749699783247836E-5
-#final radius= 9696.84498280948
-##########################################
-lambda= 1.064E-6
-Ltot= 1
-r0= 1.0E+100
-w0= 3.79E-4
-lns1.abcd=abcd_lens( 0.0458 )
-lns1.x= 0.68511492970319
-lns2.abcd=abcd_lens( 0.075 )
-lns2.x= 0.87402246304241
-#final waste= 3.749701332844041E-5
-#final radius= - 10846.91040385292
-##########################################
-lambda= 1.064E-6
-Ltot= 1
-r0= 1.0E+100
-w0= 3.79E-4
-lns1.abcd=abcd_lens( 0.075 )
-lns1.x= 0.76610586787033
-lns2.abcd=abcd_lens( 0.0458 )
-lns2.x= 0.95501343089554
-#final waste= 3.74969929695543E-5
-#final radius= 634.9580237467258
-##########################################
-lambda= 1.064E-6
-Ltot= 1
-r0= 1.0E+100
-w0= 3.79E-4
-lns1.abcd=abcd_lens( 0.02 )
-lns1.x= 0.6855
-lns2.abcd=abcd_lens( 0.075 )
-lns2.x= 0.82181296239992
-#final waste= 2.562995940978496E-5
-#I was aiming to final waste
-wf= 2.563E-5
-#final radius= 105.6913076334706
-#I was aiming to final radius
-rf= 1.0E+100
-##########################################