Freq = containers.Map;
Abs = containers.Map;
Phase = containers.Map;

% TTFSS TFs
data = importdata('T0712_1G.CSV');
Freq('TTFSS_EOM') = data.data(:,1);
Abs('TTFSS_EOM') = 10.^(data.data(:,2)/20);
data = importdata('T0712_1P.CSV');
Phase('TTFSS_EOM') = data.data(:,2);
data = importdata('T0712_2G.CSV');
Freq('TTFSS_PZT') = data.data(:,1);
Abs('TTFSS_PZT') = 10.^(data.data(:,2)/20);
data = importdata('T0712_2P.CSV');
Phase('TTFSS_PZT') = data.data(:,2);

data = importdata('T0707_15G.CSV');
Freq('TTFSS_OUT1-OUT2') = data.data(:,1);
Abs('TTFSS_OUT1-OUT2') = 10.^(data.data(:,2)/20);
data = importdata('T0707_15P.CSV');
Phase('TTFSS_OUT1-OUT2') = data.data(:,2);

%TF from SR560 to OUT1
data = importdata('T0707_7G.CSV');
Freq('NPRO_PZT+RefCav+mixer') = data.data(:,1);
Abs('NPRO_PZT+RefCav+mixer') = 10.^(data.data(:,2)/20);
data = importdata('T0707_7P.CSV');
Phase('NPRO_PZT+RefCav+mixer') = data.data(:,2);

% OLG of FSS with pzt
data = importdata('O0707_8G.CSV');
Freq('OLG_FSS_PZTonly(OUT2-OUT1)') = data.data(:,1);
Abs('OLG_FSS_PZTonly(OUT2-OUT1)') = 10.^(data.data(:,2)/20);
data = importdata('O0707_8P.CSV');
Phase('OLG_FSS_PZTonly(OUT2-OUT1)') = data.data(:,2);

% TF from EOM excitation to OUT1
data = importdata('T0707_9G.CSV');
Freq('BEOM+RefCav+mixer') = data.data(:,1);
Abs('BEOM+RefCav+mixer') = 10.^(data.data(:,2)/20);
data = importdata('T0707_9P.CSV');
Phase('BEOM+RefCav+mixer') = data.data(:,2);

% TF from AOM excitation to OUT1
data = importdata('T0707_11G.CSV');
Freq('AOM+RefCav+mixer') = data.data(:,1);
Abs('AOM+RefCav+mixer')  = 10.^(data.data(:,2)/20);
data = importdata('T0707_11P.CSV');
Phase('AOM+RefCav+mixer')  = data.data(:,2);

% OLG of FSS
data = importdata('O0713_1G.CSV');
Freq('OLG_FSS(OUT2-OUT1)') = data.data(:,1);
Abs('OLG_FSS(OUT2-OUT1)') = 10.^(data.data(:,2)/20);
data = importdata('O0713_1P.CSV');
Phase('OLG_FSS(OUT2-OUT1)') = data.data(:,2);
% mnbode(ff_OLG_FSS,abs_OLG_FSS,ang_OLG_FSS)

% TF from IN1 to SLOW out of CMS
data = importdata('T0707_17G.CSV');
Freq('CMS_AOM_H') = data.data(:,1);
Abs('CMS_AOM_H') = 10.^(data.data(:,2)/20);
data = importdata('T0707_17P.CSV');
Phase('CMS_AOM_H') = data.data(:,2);

data = importdata('T0705_5.txt');
Freq('CMS_AOM_L') = data(:,1);
Abs('CMS_AOM_L') = data(:,2);
Phase('CMS_AOM_L') = data(:,3);

% TF from IN1 to K1:IMC_MCL_SERVO_OUT
data = importdata('T0713_23.txt');
Freq('CMS_SUS') = data(:,1);
Abs('CMS_SUS') = data(:,2);
Phase('CMS_SUS') = data(:,3);

%TF from SLOW OUT to out of demod
data = importdata('T0713_24G.CSV');
Freq('AOM+FSS+IMC+IQdemod') = data.data(:,1);
Abs('AOM+FSS+IMC+IQdemod') = 10.^(data.data(:,2)/20);
data = importdata('T0713_24P.CSV');
Phase('AOM+FSS+IMC+IQdemod') = data.data(:,2);

%FSS OLG with IMC
data = importdata('O0713_3G.CSV');
Freq('OLG_FSS_with_IMC') = data.data(:,1);
Abs('OLG_FSS_with_IMC') = 10.^(data.data(:,2)/20);
data = importdata('O0713_3P.CSV');
Phase('OLG_FSS_with_IMC') = data.data(:,2);

%IMC OLG with FSS
data = importdata('O0713_12G.CSV');
Freq('OLG_IMC') = data.data(:,1);
Abs('OLG_IMC') = 10.^(data.data(:,2)/20);
data = importdata('O0713_12P.CSV');
Phase('OLG_IMC') = data.data(:,2);

%IMC cross over between suspension and AOM
data = importdata('T0713_21.txt');
Freq('CROSS_IMC') = data(:,1);
Abs('CROSS_IMC') = data(:,2);
Phase('CROSS_IMC') = data(:,3);