diff options
author | Thomas White <taw@physics.org> | 2010-10-28 15:07:43 +0200 |
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committer | Thomas White <taw@physics.org> | 2012-02-22 15:27:04 +0100 |
commit | ea3422faf57e288c00bf971550601cb54773d07f (patch) | |
tree | 1d087e870d336159e0d1b23eedbcefe25f71c9b8 /src/geometry.c | |
parent | f9c54e91c2a8e0c2e0a17a99bc49f05b45bc9ba7 (diff) |
More geometry work (fixes a previous commit)
Diffstat (limited to 'src/geometry.c')
-rw-r--r-- | src/geometry.c | 73 |
1 files changed, 32 insertions, 41 deletions
diff --git a/src/geometry.c b/src/geometry.c index 2b94e7ba..1f21c96f 100644 --- a/src/geometry.c +++ b/src/geometry.c @@ -76,28 +76,19 @@ static signed int locate_peak(double x, double y, double z, double lambda, static double excitation_error(double xl, double yl, double zl, - double ds_sq, double lambda) + double ds, double lambda) { - double tt; - double a, b, c; - double r1, r2; - int n; + double tt, al; + double r; tt = angle_between(0.0, 0.0, 1.0, xl, yl, zl+1.0/lambda); + al = M_PI_2 - asin(-zl/ds); - a = 1.0; - b = - cos(tt) * 2.0/lambda; - c = pow(lambda, -2.0) - ds_sq; + r = ds * sin(al) / sin(tt); - /* FIXME: I don't trust GSL's quadratic solver */ - n = gsl_poly_solve_quadratic(a, b, c, &r1, &r2); - assert(n == 2); + r -= 1.0/lambda; - r1 -= 1.0/lambda; - r2 -= 1.0/lambda; - - if ( r1 > r2 ) return r2; - return r1; + return r; } @@ -115,7 +106,7 @@ struct cpeak *find_intersections(struct image *image, UnitCell *cell, double bandwidth = image->bw; double divergence = image->div; double lambda = image->lambda; - const double profile_cutoff = 0.05e9; /* 0.1 nm^-1 */ + const double profile_cutoff = 0.005e9; /* 0.1 nm^-1 */ double llow, lhigh; /* Wavelength */ cpeaks = malloc(sizeof(struct cpeak)*MAX_CPEAKS); @@ -148,10 +139,10 @@ struct cpeak *find_intersections(struct image *image, UnitCell *cell, double xl, yl, zl; double ds, ds_sq; double rlow, rhigh; /* "Excitation error" */ - signed int plow, phigh; - double xdalow, xdahigh; - double ydalow, ydahigh; + signed int p; + double lcen; double xda, yda; + int close, straddled; /* Ignore central beam */ if ( (h==0) && (k==0) && (l==0) ) continue; @@ -168,32 +159,32 @@ struct cpeak *find_intersections(struct image *image, UnitCell *cell, if ( ds > mres ) continue; /* Outside resolution range */ /* Calculate excitation errors */ - rlow = excitation_error(xl, yl, zl, ds_sq, llow); - rhigh = excitation_error(xl, yl, zl, ds_sq, lhigh); - - if ( (fabs(rlow) > profile_cutoff) - && (fabs(rhigh) > profile_cutoff) ) { - /* Reflection is not close to Bragg at either of - * the two extremes of wavelength, so skip it. */ - continue; - } + rlow = excitation_error(xl, yl, zl, ds, llow); + rhigh = excitation_error(xl, yl, zl, ds, lhigh); + + /* Is the reciprocal lattice point close to either extreme of + * the sphere, maybe just outside the "Ewald volume"? */ + close = (fabs(rlow) < profile_cutoff) + || (fabs(rhigh) < profile_cutoff); + + /* Is the reciprocal lattice point somewhere between the + * extremes of the sphere, i.e. inside the "Ewald volume"? */ + straddled = signbit(rlow) ^ signbit(rhigh); + + /* Neither? Skip it. */ + if ( !(close || straddled) ) continue; + + lcen = -2.0*zl / ds_sq; /* Locate peak on detector, and check it doesn't span panels */ - plow = locate_peak(xl, yl, zl, llow, image->det, - &xdalow, &ydalow); - if ( plow == -1 ) continue; - phigh = locate_peak(xl, yl, zl, lhigh, image->det, - &xdahigh, &ydahigh); - if ( phigh == -1 ) continue; - if ( plow != phigh ) continue; - - xda = xdahigh; - yda = ydahigh; + p = locate_peak(xl, yl, zl, lcen, image->det, &xda, &yda); + if ( p == -1 ) continue; + cpeaks[np].h = h; cpeaks[np].k = k; cpeaks[np].l = l; - cpeaks[np].x = xdahigh; - cpeaks[np].y = ydahigh; + cpeaks[np].x = xda; + cpeaks[np].y = yda; np++; if ( output ) { |