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|
#!/usr/bin/perl
use strict;
use warnings;
use utf8;
use Math::Trig;
use lib ".";
use OmegaUtils;
my $pi = Math::Trig::pi;
use Getopt::Long qw(:config no_ignore_case);
=pod
tbw
=cut
my $usage = "USAGE: $0 -f dollarizedInput -m mu -k kx [-p] [-z] out.gnuplot\n";
my $templateInput;
my $isPeriodic;
my $zeroAtCenter = 0;
my $mu;
my $kx;
GetOptions('f=s' => \$templateInput,
'm=f' => \$mu,
'p' => \$isPeriodic,
'z' => \$zeroAtCenter,
'k=f' => \$kx) or die "$usage\n";
my $x = (defined($kx) & defined($mu));
($x and defined($templateInput) and defined($isPeriodic)) or die "$usage\n";
my $sites;
my $eta;
my $geometryName;
my $geometryLeg = 1;
my $hptr = {"GeometryKind" => \$geometryName,
"LadderLeg" => \$geometryLeg,
"TotalNumberOfSites" => \$sites,
"CorrectionVectorEta" => \$eta};
OmegaUtils::getLabels($hptr,$templateInput);
die "$0 doesn't support LadderLeg=$geometryLeg\n" if ($geometryLeg > 2);
my ($file) = @ARGV;
defined($file) or die "$usage\n";
my ($gamma, $delta, $anorm);
getMinParams(\$gamma, \$delta, \$anorm, $file, $mu, $kx);
$x = (defined($gamma) and defined($delta) and defined($anorm));
$x or die "$0: Fit failed\n";
print STDERR "gamma=$gamma delta=$delta anorm=$anorm\n";
my %spec;
my $numberOfKs;
my @omegas;
findOmegas(\@omegas, \$numberOfKs, $file);
createSpectrum(\%spec, \@omegas, $numberOfKs);
my $geometry = {"name" => $geometryName, "leg" => $geometryLeg};
OmegaUtils::printOffsetPlots("fit", \%spec, $geometry, $isPeriodic, $zeroAtCenter);
sub findOmegas
{
my ($omegas, $numberOfKs, $file) = @_;
open(FILE, "<", $file) or die "$0: Cannot open $file : $!\n";
my $counter = 0;
my $x = 0;
my $omegaPrev;
while (<FILE>) {
my @temp = split;
if (defined($omegaPrev) && $omegaPrev != $temp[1]) {
$$numberOfKs = $counter;
$counter = 0;
$omegas[$x++] = $omegaPrev;
}
$omegaPrev = $temp[1];
++$counter;
}
close(FILE);
$omegas[$x++] = $omegaPrev;
print STDERR "$0: Found ".scalar(@omegas)." omegas\n";
print STDERR "$0: Found numberOfKs= ".$$numberOfKs."\n";
}
sub createSpectrum
{
my ($ptr, $omegas, $numberOfKs) = @_;
foreach my $omega (@$omegas) {
my @temp = generateSpectrum($omega, $numberOfKs);
$ptr->{$omega} = \@temp;
}
}
sub generateSpectrum
{
my ($omega, $numberOfQs) = @_;
my $omega2 = $omega*$omega;
my $gaom = $gamma*$omega;
my @result;
$result[0] = $omega;
for (my $ky = 0; $ky < 2; ++$ky) {
for (my $m2 = 0; $m2 < $numberOfQs; ++$m2) {
my $q = OmegaUtils::getQ($m2, $numberOfQs, $isPeriodic);
my $ek = dispersionBar($q, $ky*$pi);
my $num = ($omega + $ek)*2.0*$gaom*$anorm/$pi;
my $phi2 = $ek**2 + $gamma**2 + $delta**2;
my $den = ($omega2 - $phi2)**2 + 4*$gaom*$gaom;
my $imagPart = $num/$den;
$result[2*$m2+1+2*$ky*$numberOfQs] = 0; # real part
$result[2*$m2+2+2*$ky*$numberOfQs] = $imagPart; # imag part
}
}
return @result;
}
sub dispersionBar
{
my ($kx, $ky) = @_;
return -2*cos($kx) - cos($ky) - $mu;
}
sub getMinParams
{
my ($gamma, $delta, $anorm, $file, $mu, $kx) = @_;
my $ky = 0;
my $cmd = $ENV{"HOME"}."/github/PsimagLite/drivers/fit $file $mu $kx $ky";
open(PIPE, "$cmd |") or die "$0: Cannot open pipe : $!\n";
while (<PIPE>) {
next if (/^#/);
if (/gamma=(.+$)/) {
$$gamma = $1;
next;
}
if (/delta=(.+$)/) {
$$delta = $1;
next;
}
if (/anorm=(.+$)/) {
$$anorm = $1;
next;
}
}
close(PIPE);
}
|
