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White Rabbit Calibration
Commits
c2affb46
Commit
c2affb46
authored
Apr 30, 2019
by
Peter Jansweijer
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optimized figures readability
parent
7af1f7aa
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2 changed files
with
61 additions
and
61 deletions
+61
-61
errorbarplots.py
sw/insitu_alpha/ArticleErrorbarPlots/errorbarplots.py
+40
-40
analyze_sellmeier.py
sw/insitu_alpha/analyze_sellmeier.py
+21
-21
No files found.
sw/insitu_alpha/ArticleErrorbarPlots/errorbarplots.py
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c2affb46
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sw/insitu_alpha/analyze_sellmeier.py
View file @
c2affb46
...
@@ -783,7 +783,7 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
...
@@ -783,7 +783,7 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
with_tolerances
=
False
with_tolerances
=
False
ax
.
text
(
0.01
,
0.95
,
str
(
insitu_file
),
transform
=
ax
.
transAxes
)
ax
.
text
(
0.01
,
0.95
,
str
(
insitu_file
),
transform
=
ax
.
transAxes
)
ax
.
axvline
(
fixed_lambda
*
1e9
,
color
=
'red'
)
ax
.
axvline
(
fixed_lambda
*
1e9
,
color
=
'red'
)
lns
=
ax
.
plot
(
x
,
y
,
color
=
'
blue
'
,
label
=
'data'
)
# Original datapoints
lns
=
ax
.
plot
(
x
,
y
,
color
=
'
green
'
,
label
=
'data'
)
# Original datapoints
if
with_tolerances
:
if
with_tolerances
:
ax
.
text
(
0.01
,
0.90
,
"tolerance: "
+
str
(
tolerance
)
+
"; outliers: "
+
str
(
outlier_cnt
),
transform
=
ax
.
transAxes
)
ax
.
text
(
0.01
,
0.90
,
"tolerance: "
+
str
(
tolerance
)
+
"; outliers: "
+
str
(
outlier_cnt
),
transform
=
ax
.
transAxes
)
#ax.text(0.01, 0.85, "fit y = a * x + b", transform=ax.transAxes)
#ax.text(0.01, 0.85, "fit y = a * x + b", transform=ax.transAxes)
...
@@ -795,7 +795,7 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
...
@@ -795,7 +795,7 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
lns3
=
ax
.
plot
(
x_clean
,
y_clean
,
color
=
'red'
,
label
=
'data, outliers removed'
)
# cleaned array in [nm]
lns3
=
ax
.
plot
(
x_clean
,
y_clean
,
color
=
'red'
,
label
=
'data, outliers removed'
)
# cleaned array in [nm]
lns
=
lns
+
lns1
+
lns2
+
lns3
lns
=
lns
+
lns1
+
lns2
+
lns3
lns1
=
ax
.
plot
(
x_clean
,
ly_clean
,
color
=
'
green
'
,
label
=
'5-term Sellmeier fit'
)
# final clean 5th order sellmeier fit in [nm]
lns1
=
ax
.
plot
(
x_clean
,
ly_clean
,
color
=
'
blue
'
,
label
=
'5-term Sellmeier fit'
)
# final clean 5th order sellmeier fit in [nm]
#lns2 = ax.plot(x_clean, ly_lin_clean, "-", color = 'blue', dashes=[5,5,5,5], label='linear fit') # final clean linear fit in [nm]
#lns2 = ax.plot(x_clean, ly_lin_clean, "-", color = 'blue', dashes=[5,5,5,5], label='linear fit') # final clean linear fit in [nm]
ax2
=
ax
.
twinx
()
ax2
=
ax
.
twinx
()
...
@@ -834,7 +834,7 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
...
@@ -834,7 +834,7 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
#ax.text(0.01, 0.90, 'linear and 5-term Sellmeier fit', transform=ax.transAxes)
#ax.text(0.01, 0.90, 'linear and 5-term Sellmeier fit', transform=ax.transAxes)
ax
.
axhline
(
0
,
color
=
'gray'
)
ax
.
axhline
(
0
,
color
=
'gray'
)
ax
.
axvline
(
fixed_lambda
*
1e9
,
color
=
'red'
)
ax
.
axvline
(
fixed_lambda
*
1e9
,
color
=
'red'
)
label
=
ax
.
plot
(
x_clean
,
alpha_sellmeier
,
color
=
'
green
'
,
label
=
'dirived from 5-term Sellmeier fit'
)
label
=
ax
.
plot
(
x_clean
,
alpha_sellmeier
,
color
=
'
blue
'
,
label
=
'dirived from 5-term Sellmeier fit'
)
lns
.
append
(
label
[
0
])
lns
.
append
(
label
[
0
])
#ax.plot(x_clean, alpha_tangent, color='blue', dashes=[5,5,5,5], label='dirived from linear fit')
#ax.plot(x_clean, alpha_tangent, color='blue', dashes=[5,5,5,5], label='dirived from linear fit')
#ax.plot(x_clean, alpha_linear, color='blue', dashes=[5,5,5,5], label='linear')
#ax.plot(x_clean, alpha_linear, color='blue', dashes=[5,5,5,5], label='linear')
...
@@ -975,25 +975,25 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
...
@@ -975,25 +975,25 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
#PLOT_A = False
#PLOT_A = False
#if PLOT_A:
#if PLOT_A:
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_0
,
selected_alpha_3wl_a_0
,
yerr
=
selected_alpha_3wl_a_0_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'red
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1568.77 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_0
,
selected_alpha_3wl_a_0
,
yerr
=
selected_alpha_3wl_a_0_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C1
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1568.77 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_16
,
selected_alpha_3wl_a_16
,
yerr
=
selected_alpha_3wl_a_16_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'blue
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1554.94 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_16
,
selected_alpha_3wl_a_16
,
yerr
=
selected_alpha_3wl_a_16_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C2
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1554.94 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_32
,
selected_alpha_3wl_a_32
,
yerr
=
selected_alpha_3wl_a_32_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'grey
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1542.14 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_32
,
selected_alpha_3wl_a_32
,
yerr
=
selected_alpha_3wl_a_32_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C3
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1542.14 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_49
,
selected_alpha_3wl_a_49
,
yerr
=
selected_alpha_3wl_a_49_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'cyan
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1528.77 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_49
,
selected_alpha_3wl_a_49
,
yerr
=
selected_alpha_3wl_a_49_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C4
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1528.77 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_7
,
selected_alpha_3wl_a_7
,
yerr
=
selected_alpha_3wl_a_7_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'orange
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1563.05 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_7
,
selected_alpha_3wl_a_7
,
yerr
=
selected_alpha_3wl_a_7_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C5
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1563.05 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_8
,
selected_alpha_3wl_a_8
,
yerr
=
selected_alpha_3wl_a_8_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'yellow
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1562.23 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_8
,
selected_alpha_3wl_a_8
,
yerr
=
selected_alpha_3wl_a_8_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C6
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1562.23 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_9
,
selected_alpha_3wl_a_9
,
yerr
=
selected_alpha_3wl_a_9_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'brown
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1560.61 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_9
,
selected_alpha_3wl_a_9
,
yerr
=
selected_alpha_3wl_a_9_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C7
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1560.61 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_10
,
selected_alpha_3wl_a_10
,
yerr
=
selected_alpha_3wl_a_10_stddev
,
fmt
=
'
d'
,
capsize
=
6
,
color
=
'pink
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1559.79 [nm]'
))
lns_a
.
append
(
ax
.
errorbar
(
selected_wavelength_10
,
selected_alpha_3wl_a_10
,
yerr
=
selected_alpha_3wl_a_10_stddev
,
fmt
=
'
^'
,
capsize
=
6
,
color
=
'C8
'
,
label
=
r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1559.79 [nm]'
))
#else:
#else:
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_0
,
selected_alpha_3wl_b_0
,
yerr
=
selected_alpha_3wl_b_0_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'red
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1568.77 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_0
,
selected_alpha_3wl_b_0
,
yerr
=
selected_alpha_3wl_b_0_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C1
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1568.77 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_16
,
selected_alpha_3wl_b_16
,
yerr
=
selected_alpha_3wl_b_16_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'blue
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1554.94 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_16
,
selected_alpha_3wl_b_16
,
yerr
=
selected_alpha_3wl_b_16_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C2
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1554.94 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_32
,
selected_alpha_3wl_b_32
,
yerr
=
selected_alpha_3wl_b_32_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'grey
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1542.14 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_32
,
selected_alpha_3wl_b_32
,
yerr
=
selected_alpha_3wl_b_32_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C3
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1542.14 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_49
,
selected_alpha_3wl_b_49
,
yerr
=
selected_alpha_3wl_b_49_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'cyan
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1528.77 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_49
,
selected_alpha_3wl_b_49
,
yerr
=
selected_alpha_3wl_b_49_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C4
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1528.77 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_7
,
selected_alpha_3wl_b_7
,
yerr
=
selected_alpha_3wl_b_7_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'orange
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1563.05 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_7
,
selected_alpha_3wl_b_7
,
yerr
=
selected_alpha_3wl_b_7_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C5
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1563.05 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_8
,
selected_alpha_3wl_b_8
,
yerr
=
selected_alpha_3wl_b_8_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'yellow
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1562.23 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_8
,
selected_alpha_3wl_b_8
,
yerr
=
selected_alpha_3wl_b_8_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C6
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1562.23 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_9
,
selected_alpha_3wl_b_9
,
yerr
=
selected_alpha_3wl_b_9_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'brown
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1560.61 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_9
,
selected_alpha_3wl_b_9
,
yerr
=
selected_alpha_3wl_b_9_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C7
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1560.61 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_10
,
selected_alpha_3wl_b_10
,
yerr
=
selected_alpha_3wl_b_10_stddev
,
fmt
=
'
h'
,
capsize
=
6
,
color
=
'pink
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1559.79 [nm]'
))
lns_b
.
append
(
ax
.
errorbar
(
selected_wavelength_10
,
selected_alpha_3wl_b_10
,
yerr
=
selected_alpha_3wl_b_10_stddev
,
fmt
=
'
v'
,
capsize
=
6
,
color
=
'C8
'
,
label
=
r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1559.79 [nm]'
))
lns
.
append
(
ax
.
errorbar
(
selected_wavelength
,
selected_alpha_sel
,
yerr
=
selected_alpha_sel_stddev
,
fmt
=
'*'
,
capsize
=
6
,
color
=
'
green
'
,
label
=
'Sellmeier'
))
lns
.
append
(
ax
.
errorbar
(
selected_wavelength
,
selected_alpha_sel
,
yerr
=
selected_alpha_sel_stddev
,
fmt
=
'*'
,
capsize
=
6
,
color
=
'
blue
'
,
label
=
'Sellmeier'
))
#############################################################################################
#############################################################################################
labels
=
[
l
.
get_label
()
for
l
in
lns
]
labels
=
[
l
.
get_label
()
for
l
in
lns
]
...
...
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