<s>
Codes	B-Application
for	I-Application
electromagnetic	I-Application
scattering	I-Application
by	I-Application
spheres	I-Application
-	O
this	O
article	O
list	O
codes	O
for	O
electromagnetic	O
scattering	O
by	O
a	O
homogeneous	O
sphere	O
,	O
layered	O
sphere	O
,	O
and	O
cluster	O
of	O
spheres	O
.	O
</s>
<s>
Other	O
approximations	O
to	O
scattering	O
by	O
a	O
single	O
sphere	O
include	O
:	O
Debye	O
series	O
,	O
ray	B-Algorithm
tracing	I-Algorithm
(	O
geometrical	O
optics	O
)	O
,	O
ray	B-Algorithm
tracing	I-Algorithm
including	O
the	O
effects	O
of	O
interference	O
between	O
rays	O
,	O
Airy	O
theory	O
,	O
Rayleigh	O
scattering	O
,	O
diffraction	O
approximation	O
.	O
</s>
<s>
Even	O
though	O
Mie	O
theory	O
offers	O
convenient	O
and	O
fast	O
way	O
of	O
solving	O
light	O
scattering	O
problem	O
by	O
homogeneous	O
spherical	O
particles	O
,	O
there	O
are	O
other	O
techniques	O
,	O
such	O
as	O
discrete	B-Algorithm
dipole	I-Algorithm
approximation	I-Algorithm
,	O
FDTD	O
,	O
T-matrix	O
,	O
which	O
can	O
also	O
be	O
used	O
for	O
such	O
tasks	O
.	O
</s>
<s>
Fortran	B-Application
IDLMatlab	O
C	B-Language
Python	O
"	O
Mie	O
solutions	O
"	O
(	O
infinite	O
series	O
)	O
to	O
scattering	O
,	O
absorption	O
and	O
phase	O
function	O
of	O
electromagnetic	O
waves	O
by	O
a	O
homogeneous	O
sphere	O
.	O
</s>
<s>
Visual	O
Basic	O
MiePlot	O
offers	O
the	O
following	O
mathematical	O
models	O
for	O
the	O
scattering	O
of	O
light	O
by	O
a	O
sphere	O
:	O
Mie	O
solutions	O
,	O
Debye	O
series	O
,	O
ray	B-Algorithm
tracing	I-Algorithm
(	O
based	O
on	O
geometrical	O
optics	O
)	O
,	O
ray	B-Algorithm
tracing	I-Algorithm
including	O
the	O
effects	O
of	O
interference	O
between	O
rays	O
,	O
Airy	O
theory	O
,	O
Rayleigh	O
scattering	O
,	O
diffraction	O
,	O
surface	O
waves	O
.	O
</s>
<s>
Gareth	O
Thomas	O
and	O
Don	O
Grainger	O
IDL	B-Language
The	O
Sub-Department	O
of	O
Atmospheric	O
Oceanic	O
and	O
Planetary	O
Physics	O
in	O
the	O
University	O
of	O
Oxford	O
maintains	O
an	O
archive	O
of	O
Mie	O
scattering	O
routines	O
for	O
both	O
single	O
spheres	O
and	O
populations	O
of	O
particles	O
in	O
which	O
sizes	O
follow	O
a	O
log-normal	O
distribution	O
.	O
</s>
<s>
The	O
routines	O
are	O
written	O
in	O
IDL	B-Language
,	O
but	O
a	O
Fortran-based	O
DLM	O
version	O
(	O
which	O
substantially	O
reduces	O
runtime	O
)	O
of	O
the	O
single-sphere	O
code	O
is	O
also	O
available	O
.	O
</s>
<s>
Year	O
Name	O
Authors	O
Ref	O
Language	O
License	O
Short	O
Description1981	O
DMILAY	O
Owen	O
B	O
.	O
Toon	O
and	O
T	O
.	O
P	O
.	O
Ackerman	O
Fortran	B-Application
No	O
license	O
specified	O
but	O
open	O
source	O
(	O
public	O
domain	O
)	O
Scattering	O
by	O
a	O
stratified	O
sphere	O
(	O
a	O
particle	O
with	O
a	O
spherical	O
core	O
surrounded	O
by	O
a	O
spherical	O
shell	O
)	O
.	O
</s>
<s>
Code	O
dates	O
from	O
1968	O
available	O
here:http://www.atmos.washington.edu/	O
~	O
ackerman/Mie_code/rtpmie.ackerman.dmiess.f	O
1983	O
BHCOAT	O
Craig	O
F	O
.	O
Bohren	O
and	O
Donald	O
R	O
.	O
Huffman	O
Fortran	B-Application
No	O
specified	O
but	O
open	O
source	O
(	O
public	O
domain	O
via	O
)	O
"	O
Mie	O
solutions	O
"	O
(	O
infinite	O
series	O
)	O
to	O
scattering	O
,	O
absorption	O
and	O
phase	O
function	O
of	O
electromagnetic	O
waves	O
by	O
a	O
homogeneous	O
concentring	O
shells	O
.	O
</s>
<s>
Fortran	B-Application
Open	O
source	O
(	O
own	O
license	O
)	O
Based	O
on	O
the	O
Aden	O
–	O
Kerker	O
theory	O
to	O
calculate	O
light-scattering	O
properties	O
for	O
coated	O
spherical	O
particles	O
2004	O
MjcLscCoatSph	O
M	O
.	O
Jonasz	O
GUI/Windows	O
Proprietary	O
/	O
closed	O
source	O
This	O
program	O
calculates	O
the	O
scattering	O
,	O
absorption	O
,	O
and	O
attenuation	O
parameters	O
,	O
as	O
well	O
as	O
the	O
angular	O
scattering	O
patterns	O
of	O
a	O
single	O
coated	O
sphere	O
according	O
to	O
Aden-Kerker	O
theory.2007	O
L	O
.	O
Liu	O
,	O
H	O
.	O
Wang	O
,	O
B	O
.	O
Yu	O
,	O
Y	O
.	O
Xu	O
,	O
J	O
.	O
Shen	O
C	B-Language
Unknown	O
Light	O
scattering	O
by	O
a	O
coated	O
sphere	O
(	O
extinction	O
efficiency	O
,	O
scattering	O
efficiency	O
,	O
light	O
scattering	O
intensity	O
)	O
2009-2022	O
Scattnlay	O
O	O
.	O
Pena	O
,	O
U	O
.	O
Pal	O
,	O
K	O
.	O
LadutenkoO	O
Pena	O
and	O
U	O
Pal	O
,	O
Scattering	O
of	O
EM	O
radiation	O
by	O
a	O
multilayer	O
sphere	O
,	O
Computer	O
Physics	O
Communications	O
,	O
180	O
,	O
2348-2354	O
,	O
2009	O
C++	B-Language
,	O
Python	O
,	O
and	O
JavaScript	B-Language
GPLv3	O
Light	O
scattering	O
from	O
a	O
multilayered	O
sphere	O
based	O
on	O
the	O
algorithm	O
by	O
W	O
Yang.W	O
Yang	O
,	O
Improved	O
recursive	O
algorithm	O
for	O
light	O
scattering	O
by	O
a	O
multilayered	O
sphere	O
,	O
Applied	O
Optics	O
,	O
Vol	O
.	O
</s>
<s>
Has	O
a	O
compilation	O
option	O
to	O
use	O
Boost.Multiprecision	B-Language
for	O
higher	O
accuracy	O
.	O
</s>
<s>
Web	B-Application
application	I-Application
is	O
the	O
part	O
of	O
package	O
,	O
available	O
online	O
on	O
the	O
website	O
of	O
Department	O
of	O
Physics	O
and	O
Engineering	O
in	O
ITMO	O
University	O
.	O
</s>
<s>
Year	O
Name	O
Authors	O
References	O
Language	O
Short	O
Description1998-2003	O
GMM	O
Yu-lin	O
Xu	O
and	O
Bo	O
A	O
.	O
S	O
.	O
Gustafson	O
Yu-lin	O
Xu	O
,	O
Bo	O
A.S.	O
Gustafson	O
,	O
A	O
generalized	O
multiparticle	O
Mie-solution	O
:	O
further	O
experimental	O
verification	O
,	O
Journal	O
of	O
Quantitative	O
Spectroscopy	O
&	O
Radiative	O
Transfer	O
70	O
(	O
2001	O
)	O
395	O
–	O
419	O
Fortran	B-Application
Codes	O
which	O
calculate	O
exactly	O
electromagnetic	O
scattering	O
by	O
an	O
aggregate	O
of	O
spheres	O
in	O
a	O
single	O
orientation	O
or	O
at	O
an	O
average	O
over	O
individual	O
orientations.2013	O
MSTM	O
D	O
.	O
W	O
.	O
Mackowski	O
Fortran	B-Application
Codes	O
which	O
calculate	O
exactly	O
electromagnetic	O
scattering	O
by	O
an	O
aggregate	O
of	O
spheres	O
and	O
spheres	O
within	O
spheres	O
for	O
complex	O
materials	O
.	O
</s>
<s>
Works	O
in	O
parallel	O
as	O
well.2015	O
py_gmm	O
G	O
.	O
Pellegrini	O
Python	O
+	O
Fortran	B-Application
A	O
Python	O
+	O
Fortran	B-Application
90	O
implementation	O
of	O
the	O
Generalized	O
Multiparticle	O
Mie	O
method	O
,	O
especially	O
suited	O
for	O
plasmonics	O
and	O
near	O
field	O
computation.2017	O
CELES	O
A	O
.	O
Egel	O
,	O
L	O
.	O
Pattelli	O
and	O
G	O
.	O
Mazzamuto	O
MATLAB	O
+	O
CUDA	O
Running	O
on	O
NVIDIA	O
GPUs	O
,	O
with	O
high	O
performance	O
for	O
many	O
spheres.2020	O
QPMS	O
M	O
.	O
Nečada	O
C	B-Language
,	O
Python	O
Many-particle	O
simulations	O
in	O
homogeneous	O
media	O
,	O
supports	O
various	O
particle	O
shapes	O
in	O
finite	O
as	O
well	O
as	O
infinite	O
periodic	O
configurations.2021	O
SMUTHI	O
A	O
.	O
Egel	O
et	O
al	O
.	O
</s>
<s>
Amos	O
Egel	O
,	O
Krzysztof	O
M	O
.	O
Czajkowski	O
,	O
Dominik	O
Theobald	O
,	O
Konstantin	O
Ladutenko	O
,	O
Alexey	O
S	O
.	O
Kuznetsov	O
,	O
Lorenzo	O
Pattelli	O
,	O
SMUTHI	O
:	O
A	O
python	O
package	O
for	O
the	O
simulation	O
of	O
light	O
scattering	O
by	O
multiple	O
particles	O
near	O
or	O
between	O
planar	O
interfaces	O
,	O
Journal	O
of	O
Quantitative	O
Spectroscopy	O
and	O
Radiative	O
Transfer	O
,	O
Volume	O
273	O
,	O
p	O
.	O
107846	O
(	O
2021	O
)	O
DOI	O
Python	O
+	O
Fortran	B-Application
+	O
CUDA	O
Many	O
spheres	O
in	O
stratified	O
media	O
,	O
other	O
particle	O
shapes	O
are	O
available	O
.	O
</s>
