diff --git a/ARTS_VERSION b/ARTS_VERSION
index 338a5b5d8fec491b97978114dc35e36348fa56a7..e261122d5c4c25447453895b3bcf9b5054ace4a3 100644
--- a/ARTS_VERSION
+++ b/ARTS_VERSION
@@ -1 +1 @@
-2.6.6
+2.6.7
diff --git a/ChangeLog b/ChangeLog
index 61b416e79b6c2777fbfceaf696ec53224d902725..5f2424decce5b158662a8483d8293d4f4fca8a74 100644
--- a/ChangeLog
+++ b/ChangeLog
@@ -1,3 +1,15 @@
+2024-09-19 Manfred Brath <manfred.brath@uni-hamburg.de>
+
+	* ARTS-XML-DATA-2.6-7
+	
+	* scattering/H2O_ice_full_spectrum,
+	scattering/H2O_liquid_full_spectrum,
+	scattering, README:
+	
+	Add folders with full spectrum scattering data 
+	for liquid and frozen spheres and update corresponding
+	README. 
+
 2024-07-02 Oliver Lemke <oliver.lemke@uni-hamburg.de>
 
 	* ARTS-XML-DATA-2.6-6
diff --git a/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.meta.xml b/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.meta.xml
new file mode 100644
index 0000000000000000000000000000000000000000..d6e92f7b15e8f5e9ade17ffc21760f1fa28423cf
--- /dev/null
+++ b/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.meta.xml
@@ -0,0 +1,853 @@
+<?xml version="1.0"?>
+<arts format="binary" version="1">
+<Array type="ArrayOfScatteringMetaData" nelem="1">
+<Array type="ScatteringMetaData" nelem="47">
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.10000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.1 um and 0.1 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.15000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.15 um and 0.15 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.17500µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.17 um and 0.17 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.20000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.2 um and 0.2 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.27500µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.28 um and 0.28 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.32500µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.32 um and 0.32 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.40000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.4 um and 0.4 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.52500µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.52 um and 0.52 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.65000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.65 um and 0.65 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.80000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.8 um and 0.8 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:1.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1 um and 1 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:1.50000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1.5 um and 1.5 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:1.75000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1.8 um and 1.8 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:2.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+2 um and 2 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:2.75000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+2.8 um and 2.8 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:3.25000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+3.2 um and 3.2 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:4.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+4 um and 4 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:5.25000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+5.2 um and 5.2 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:6.50000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+6.5 um and 6.5 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:8.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+8 um and 8 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:10.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+10 um and 10 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:15.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+15 um and 15 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:17.50000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+18 um and 18 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:20.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+20 um and 20 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:27.50000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+28 um and 28 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:32.50000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+33 um and 33 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:40.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+40 um and 40 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:52.50000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+52 um and 52 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:65.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+65 um and 65 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:80.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+80 um and 80 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:100.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1e+02 um and 1e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:150.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1.5e+02 um and 1.5e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:175.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1.8e+02 um and 1.8e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:200.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+2e+02 um and 2e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:275.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+2.8e+02 um and 2.8e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:325.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+3.3e+02 um and 3.3e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:400.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+4e+02 um and 4e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:525.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+5.3e+02 um and 5.3e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:650.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+6.5e+02 um and 6.5e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:800.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+8e+02 um and 8e+02 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
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+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:1000.00000µm
+Geometric mean of the scattering properties of 1 
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+1e+03 um and 1e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:1500.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1.5e+03 um and 1.5e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:1750.00000µm
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+uniformly distributed liquid water spheres between 
+1.8e+03 um and 1.8e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
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+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
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+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:2000.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+2e+03 um and 2e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
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+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
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+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:2750.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+2.8e+03 um and 2.8e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
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+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
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+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:3250.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+3.3e+03 um and 3.3e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
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+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:4000.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+4e+03 um and 4e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Warren, S. G., and R. E. Brandt
+Optical constants of ice from the ultraviolet to the microwave:A revised compilation..
+J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
+
+No temperature dependency. Nominal temperature: 266 K
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
+</ScatteringMetaData>
+</Array>
+</Array>
+</arts>
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new file mode 100644
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diff --git a/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.xml b/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.xml
new file mode 100644
index 0000000000000000000000000000000000000000..3fa8012b0385669ca501eca25a23c330a91f3fb8
--- /dev/null
+++ b/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.xml
@@ -0,0 +1,1088 @@
+<?xml version="1.0"?>
+<arts format="binary" version="1">
+<Array type="ArrayOfSingleScatteringData" nelem="1">
+<Array type="SingleScatteringData" nelem="47">
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.10000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.1 um and 0.1 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
+</Vector>
+<Vector nelem="721">
+</Vector>
+<Vector nelem="0">
+</Vector>
+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.15000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.15 um and 0.15 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
+</Vector>
+<Vector nelem="721">
+</Vector>
+<Vector nelem="0">
+</Vector>
+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.17500µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.17 um and 0.17 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
+</Vector>
+<Vector nelem="721">
+</Vector>
+<Vector nelem="0">
+</Vector>
+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.20000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.2 um and 0.2 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
+</Vector>
+<Vector nelem="721">
+</Vector>
+<Vector nelem="0">
+</Vector>
+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.27500µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.28 um and 0.28 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
+</Vector>
+<Vector nelem="721">
+</Vector>
+<Vector nelem="0">
+</Vector>
+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:0.32500µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+0.32 um and 0.32 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
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+<Vector nelem="0">
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+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
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+Geometric mean of the scattering properties of 1 
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+uniformly distributed liquid water spheres between 
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+<SingleScatteringData version="3">
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+mean particle size:0.65000µm
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+uniformly distributed liquid water spheres between 
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+<Vector nelem="121">
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+mean particle size:0.80000µm
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+mean particle size:1.50000µm
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+uniformly distributed liquid water spheres between 
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+mean particle size:1.75000µm
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+uniformly distributed liquid water spheres between 
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+<Vector nelem="121">
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+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
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+mean particle size:2.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
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+mean particle size:2.75000µm
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+uniformly distributed liquid water spheres between 
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+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
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+mean particle size:3.25000µm
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+uniformly distributed liquid water spheres between 
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+<SingleScatteringData version="3">
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+<String>"Spherical particle of liquid water generated using
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+mean particle size:4.00000µm
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+uniformly distributed liquid water spheres between 
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+<SingleScatteringData version="3">
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+<String>"Spherical particle of liquid water generated using
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+mean particle size:5.25000µm
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+uniformly distributed liquid water spheres between 
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+<SingleScatteringData version="3">
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+<String>"Spherical particle of liquid water generated using
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+mean particle size:6.50000µm
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+uniformly distributed liquid water spheres between 
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+<SingleScatteringData version="3">
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+mean particle size:8.00000µm
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+uniformly distributed liquid water spheres between 
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+mean particle size:10.00000µm
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+uniformly distributed liquid water spheres between 
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+mean particle size:15.00000µm
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+uniformly distributed liquid water spheres between 
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+mean particle size:17.50000µm
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+mean particle size:20.00000µm
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+mean particle size:27.50000µm
+Geometric mean of the scattering properties of 1 
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+<String>"Spherical particle of liquid water generated using
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+mean particle size:32.50000µm
+Geometric mean of the scattering properties of 1 
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+mean particle size:40.00000µm
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+mean particle size:52.50000µm
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+Geometric mean of the scattering properties of 1 
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+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
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+mean particle size:100.00000µm
+Geometric mean of the scattering properties of 1 
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+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
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+mean particle size:150.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
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+<Vector nelem="121">
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+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
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+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
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+mean particle size:175.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+1.8e+02 um and 1.8e+02 um"</String>
+<Vector nelem="121">
+</Vector>
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diff --git a/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.xml.bin b/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.xml.bin
new file mode 100644
index 0000000000000000000000000000000000000000..ee1c6149eb5b96a2f9e2d3c82fba8957846228de
Binary files /dev/null and b/scattering/H2O_ice_full_spectrum/MieSpheres_H2O_ice.xml.bin differ
diff --git a/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.meta.xml b/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.meta.xml
new file mode 100644
index 0000000000000000000000000000000000000000..a80412568648e82eb5b79ead9a0d32d4bd55f55a
--- /dev/null
+++ b/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.meta.xml
@@ -0,0 +1,900 @@
+<?xml version="1.0"?>
+<arts format="binary" version="1">
+<Array type="ArrayOfScatteringMetaData" nelem="1">
+<Array type="ScatteringMetaData" nelem="47">
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:0.10000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
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+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
+<String>"Segelstein, David J.
+The complex refractive index of water / by David J. Segelstein.  1981.
+ix, 167 leaves : ill. ; 29 cm.
+Thesis (M.S.)--Department of Physics. University of
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+
+"</String>
+<Numeric></Numeric>
+<Numeric></Numeric>
+<Numeric></Numeric>
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+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+Geometric mean of the scattering properties of 1 
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+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
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+"</String>
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+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:0.17500µm
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+"</String>
+<Numeric></Numeric>
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+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+<Numeric></Numeric>
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+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:0.40000µm
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+"</String>
+<Numeric></Numeric>
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+</ScatteringMetaData>
+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:0.52500µm
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+uniformly distributed liquid water spheres between 
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+"</String>
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+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:0.65000µm
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+uniformly distributed liquid water spheres between 
+2.8e+03 um and 2.8e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
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+The complex refractive index of water / by David J. Segelstein.  1981.
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+Thesis (M.S.)--Department of Physics. University of
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+mean particle size:3250.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+3.3e+03 um and 3.3e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
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+The complex refractive index of water / by David J. Segelstein.  1981.
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+<ScatteringMetaData version="3"><String>"Spherical particle of liquid water generated using
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+mean particle size:4000.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+4e+03 um and 4e+03 um"</String>
+<String>"miepython 2.5.4: https://github.com/scottprahl/miepython/"</String>
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new file mode 100644
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diff --git a/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.xml b/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.xml
new file mode 100644
index 0000000000000000000000000000000000000000..3fa8012b0385669ca501eca25a23c330a91f3fb8
--- /dev/null
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@@ -0,0 +1,1088 @@
+<?xml version="1.0"?>
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+mean particle size:0.15000µm
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+</SingleScatteringData>
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+</SingleScatteringData>
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+</SingleScatteringData>
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+<String>"totally_random"</String>
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+mean particle size:0.40000µm
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+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
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+</SingleScatteringData>
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+<SingleScatteringData version="3">
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+<String>"Spherical particle of liquid water generated using
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+</SingleScatteringData>
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+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
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+</SingleScatteringData>
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+mean particle size:1.75000µm
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+</SingleScatteringData>
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+mean particle size:2.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+2 um and 2 um"</String>
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+</Vector>
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+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
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+</SingleScatteringData>
+<SingleScatteringData version="3">
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+<String>"Spherical particle of liquid water generated using
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+mean particle size:2.75000µm
+Geometric mean of the scattering properties of 1 
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+mean particle size:3.25000µm
+Geometric mean of the scattering properties of 1 
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+Geometric mean of the scattering properties of 1 
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+Geometric mean of the scattering properties of 1 
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+5.2 um and 5.2 um"</String>
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+</SingleScatteringData>
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+<String>"Spherical particle of liquid water generated using
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+mean particle size:6.50000µm
+Geometric mean of the scattering properties of 1 
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+mean particle size:100.00000µm
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+mean particle size:150.00000µm
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+mean particle size:175.00000µm
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+mean particle size:200.00000µm
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+mean particle size:325.00000µm
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+mean particle size:400.00000µm
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+mean particle size:1750.00000µm
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+<String>"Spherical particle of liquid water generated using
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+Geometric mean of the scattering properties of 1 
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+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:3250.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+3.3e+03 um and 3.3e+03 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
+</Vector>
+<Vector nelem="721">
+</Vector>
+<Vector nelem="0">
+</Vector>
+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+<SingleScatteringData version="3">
+<String>"totally_random"</String>
+<String>"Spherical particle of liquid water generated using
+miepython and python by Manfred Brath, 2024-09-11
+mean particle size:4000.00000µm
+Geometric mean of the scattering properties of 1 
+uniformly distributed liquid water spheres between 
+4e+03 um and 4e+03 um"</String>
+<Vector nelem="121">
+</Vector>
+<Vector nelem="1">
+</Vector>
+<Vector nelem="721">
+</Vector>
+<Vector nelem="0">
+</Vector>
+<Tensor7 nlibraries="121" nvitrines="1" nshelves="721" nbooks="1" npages="1" nrows="1" ncols="6">
+</Tensor7>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+<Tensor5 nshelves="121" nbooks="1" npages="1" nrows="1" ncols="1">
+</Tensor5>
+</SingleScatteringData>
+</Array>
+</Array>
+</arts>
diff --git a/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.xml.bin b/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.xml.bin
new file mode 100644
index 0000000000000000000000000000000000000000..f984351529435e1516917f2ca60f350ae51e0672
Binary files /dev/null and b/scattering/H2O_liquid_full_spectrum/MieSpheres_H2O_liquid.xml.bin differ
diff --git a/scattering/README b/scattering/README
index b7aa787a1570032b655558767159881f47784e7b..82a1e94bd261aca68a039298c52982a586972959 100644
--- a/scattering/README
+++ b/scattering/README
@@ -17,6 +17,26 @@ H2O_ice/*.xml
 - data created by ARTS developers using atmlab routines (Maetzler's matlab Mie code; dielectric property routines)
 - for more details data headers
 
+H2O_ice_full_spectrum/*.xml
+-----------------------
+- Array of single scattering data (*.xml) and corresponding array of meta data (*.meta.xml)
+- water ice particles (e.g. for Earth ice clouds, hail, snow)
+- full spectrum from 1 GHz to 3PHz (wavelengths: 30 cm to 100 nm)
+- range of sizes (0.1-4,000um), all assumed as solid spheres
+- data created by ARTS developers using MieScatteringForARTS-package (https://github.com/atmtools/MieScatteringForARTS),
+  which uses miepython (version 2.5.3, https://github.com/scottprahl/miepython/)
+- for more details data headers
+
+H2O_liquid_full_spectrum/*.xml
+-----------------------
+- Array of single scattering data (*.xml) and corresponding array of meta data (*.meta.xml)
+- liquid water particles (e.g. for Earth liquid clouds and rain)
+- full spectrum from 1 GHz to 3PHz (wavelengths: 30 cm to 100 nm)
+- range of sizes (0.1-4,000um), all assumed as solid spheres
+- data created by ARTS developers using MieScatteringForARTS-package (https://github.com/atmtools/MieScatteringForARTS),
+  which uses miepython (version 2.5.3, https://github.com/scottprahl/miepython/)
+- for more details data headers
+
 fosangles_360.xml
 -----------------------
 - set of directions/angles (polar and azimuth angles) for FOS calculations