DEFINE INSTRUMENT DMC_diff(lambda,Det_start, char *samplefile, char *monfile, 
	char *lambdafile)
DECLARE
%{
double mono_q;
double dm;
double OMA;   
double RV;
double NV = 5;
double TKOFF;
double sample_radius = 0.005;
double sample_height = 0.03;
double lambda;
double ldiff=0.5;
double Det_start;
double Det_end;
char option_list[150];
%}

INITIALIZE
%{
dm = 3.3537;
TKOFF = lambda/(2.*dm);
TKOFF = 2.*asin(TKOFF)*57.29577951308232087679815481410517;
printf("TKOFF = %f\n", TKOFF);
OMA = TKOFF/2;
RV = fabs(2*2.82*sin(DEG2RAD*OMA));
Det_end= Det_start + 80;
sprintf(option_list,"banana theta limits [%f %f] bins=400, file=det9.dat",Det_start,Det_end);
printf("%s \n",option_list);
%}

TRACE

COMPONENT source_arm = Arm()  
AT (0, 0, 0) ABSOLUTE


/* values for guide side window RNR12 */
COMPONENT csource = Source_gen(
   radius = 0.08,xw = 0.02, yh = 0.12, dist = 1.5,
   Lambda0 = lambda, dLambda = ldiff,
   T1=150.42,I1=5.98e11,
   T2=37.23,I2=5.637e11,T3=14.9,I3=0.962e11)
AT (0,0,0) RELATIVE source_arm  ROTATED (0,0,0) RELATIVE source_arm

/* guide segment 1, m=2, 4.66 m */
 COMPONENT guide1 = Guide(w1=0.02, h1=0.12, w2=0.02, h2=0.12, 
                         l=4.66, R0=0.995, Qc=0.0217, alpha = 5.76, 
                         m = 2.0, W = 0.0033) 
    AT (0,0,1.5) RELATIVE source_arm ROTATED (0,0,0) RELATIVE source_arm

/* guide segment 2, curved, m=2, 24.5 m */
COMPONENT guide2 = Bender(
    w = 0.02, h = 0.12, r = 3612, R0a = 0.995, Qca = 0.0217,
    alphaa = 5.76, ma = 2, Wa = 0.0033, R0i = 0.995, Qci = 0.0217,
    alphai = 5.76, mi = 2, Wi = 0.0033, R0s = 0.995, Qcs = 0.0217,
    alphas = 5.76, ms = 2, Ws = 0.0033, l = 24.5)
   AT (0,0,6.16) RELATIVE source_arm ROTATED (0,0,0) RELATIVE source_arm

/* bunker wall, m=2, 3.0 m */
 COMPONENT bunker = Guide(
        w1=0.02, h1=.12, w2=0.02, h2=.12, 
        l=3.0, R0=0.995, Qc=0.0217, alpha = 5.76, 
        m = 2.0, W = 0.0033) 
    AT (0,0,30.66) RELATIVE source_arm ROTATED (0,0,0) RELATIVE source_arm

/* guide segment 3, m=2, 8.84 m */

 COMPONENT guide3 = Guide(
        w1=0.02, h1=.12, w2=0.02, h2=.12, 
        l=8.84, R0=0.995,Qc=0.0217, alpha = 5.76, 
        m = 2.0, W = 0.0033) 
    AT (0,0,33.66) RELATIVE source_arm ROTATED (0,0,0) RELATIVE source_arm

/* guide exit at 42.5 m - measured flux 2.46 10e8 cm-2 s-1 mA-1 */

COMPONENT in_slit = Slit(
        xmin = -0.01, xmax=0.01 , ymin = -0.06, ymax = 0.06)
  AT (0,0,42.5) RELATIVE  source_arm ROTATED (0,0,0) RELATIVE  source_arm

/* Monochromator description */ 

COMPONENT sma = Arm() /* source - monochromator arm */ 
AT (0, 0, 43.15) RELATIVE source_arm ROTATED (0,OMA,0) RELATIVE source_arm  


COMPONENT foc_mono = Monochromator_curved(
    zwidth = 0.05, yheight = 0.025, gap = 0.0005, NH = 1, NV = 5,
    mosaich = 38, mosaicv = 38, r0 = 0.7, DM=dm, RV = RV,
    RH = 0)
AT (0, 0, 0) RELATIVE sma

COMPONENT msa = Arm() /* monochromator - sample arm */
   AT (0, 0, 0) RELATIVE sma ROTATED (0, TKOFF, 0) RELATIVE source_arm 

COMPONENT out1_slit = Slit(
        xmin=-0.01, xmax=0.01, ymin=-0.06, ymax=0.06)
  AT (0,0,0.2) RELATIVE msa ROTATED (0,0,0) RELATIVE msa  

COMPONENT Amoin_slit = Slit(
        xmin=-0.01, xmax=0.01, ymin=-0.06, ymax=0.06)
  AT (0,0,0.325) RELATIVE  msa ROTATED (0,0,0) RELATIVE msa

COMPONENT Bmoin_slit = Slit(
        xmin=-0.01, xmax=0.01, ymin=-0.06, ymax=0.06) 
  AT (0,0,0.525) RELATIVE  msa ROTATED (0,0,0) RELATIVE msa


COMPONENT out = Virtual_output(file=lambdafile,bufsize=100000)
 	AT(0,0,0.64) RELATIVE msa ROTATED (0,0,0) RELATIVE msa
 
END