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Light Scattering Properties of the BA, BAM1, and BAM2 clusters studied by
Shen, Draine & Johnson (2009) )
If you use any of this data, please remember to cite:
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Shen, Y., Draine, B.T., & Johnson, E.T. 2008,
"Modeling Porous Dust Grains with Ballistic Aggregates I:
Geometry and Optical Properties", Ap.J., 689, 260
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Shen, Y., Draine, B.T., & Johnson, E.T. 2009,
"Modeling Porous Dust Grains with Ballistic Aggregates II:
Light Scattering Properties", Ap.J., 696, 2126
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Fig. 1:
Multiwavelength data for BAM2.256 clusters in Figure 1.
32 wavelengths from lambda=0.100um to 3.981um.
Delta[log10(wave)]=0.05 from 0.10um to 0.3162um, Delta[log10(wave)]=0.10 from 0.3162um to 3.981um
theta, phi, pol, S_11, S_12, S_21, S_22, S_31, S_41 given for each of 4 scattering planes (phi=0, 90, 180, 270)
pol, S_11, S_12, S_21, S_22, S_31, S_41 should be averaged over 4 values of phi.
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BAM2.256.01, 100% astrosilicate, a0=0.02um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.02um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.02um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.02um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.02um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.02um monomer radius
- Fig. 4:
Multiwavelength data for BAM1.32.04 and BAM2.512.14 clusters in Figure 4a,b.
32 wavelengths from lambda=0.100um to 3.981um.
Delta[log10(wave)]=0.05 from 0.10um to 0.3162um, Delta[log10(wave)]=0.10 from 0.3162um to 3.981um
theta, phi, pol, S_11, S_12, S_21, S_22, S_31, S_41 given for each of 4 scattering planes (phi=0, 90, 180, 270)
pol, S_11, S_12, S_21, S_22, S_31, S_41 should be averaged over 4 values of phi.
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BAM1.32.04, 50%/50% astrosilicate/graphite, a0=0.0504um monomer radius
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BAM2.512.14, 50%/50% astrosilicate/graphite, a0=0.0200um monomer radius
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BAM2.256.01, 100% astrosilicate, a0=0.1600um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.1600um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.1600um monomer radius
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BAM2.1024.01, 100% astrosilicate, a0=0.1000um monomer radius
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BAM2.1024.02, 100% astrosilicate, a0=0.1000um monomer radius
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BAM2.1024.03, 100% astrosilicate, a0=0.1000um monomer radius
- Fig. 5:
Multiwavelength data for BAM2.256 clusters in Figure 5.
32 wavelengths from lambda=0.100um to 3.981um.
Delta[log10(wave)]=0.05 from 0.10um to 0.3162um, Delta[log10(wave)]=0.10 from 0.3162um to 3.981um
theta, phi, pol, S_11, S_12, S_21, S_22, S_31, S_41 given for each of 4 scattering planes (phi=0, 90, 180, 270)
pol, S_11, S_12, S_21, S_22, S_31, S_41 should be averaged over 4 values of phi.
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BAM2.256.01, 100% astrosilicate, a0=0.02um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.02um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.02um monomer radius
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BAM2.256.01, 100% astrosilicate, a0=0.0250um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0250um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0250um monomer radius
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BAM2.256.01, 100% astrosilicate, a0=0.0300um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0300um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0300um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.02um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.02um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.02um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0250um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0250um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0250um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0300um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0300um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0300um monomer radius
- Fig. 6:
Multiwavelength data for BA, BAM1, BAM2 clusters in Figure 6.
theta, phi, pol, S_11, S_12, S_21, S_22, S_31, S_41 given for each of 4 scattering planes (phi=0, 90, 180, 270)
pol, S_11, S_12, S_21, S_22, S_31, S_41 should be averaged over 4 values of phi.
32 wavelengths from lambda=0.100um to 3.981um.
Delta[log10(wave)]=0.05 from 0.10um to 0.3162um, Delta[log10(wave)]=0.10 from 0.3162um to 3.981um
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BA.256.01, 100% astrosilicate, a0=0.0143um monomer radius
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BA.256.02, 100% astrosilicate, a0=0.0143um monomer radius
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BA.256.03, 100% astrosilicate, a0=0.0143um monomer radius
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BAM1.256.01, 100% astrosilicate, a0=0.0170um monomer radius
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BAM1.256.02, 100% astrosilicate, a0=0.0170um monomer radius
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BAM1.256.03, 100% astrosilicate, a0=0.0170um monomer radius
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BAM2.256.01, 100% astrosilicate, a0=0.0200um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0200um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0200um monomer radius
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BA.256.01, 50%/50% astrosilicate/graphite, a0=0.0143um monomer radius
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BA.256.02, 50%/50% astrosilicate/graphite, a0=0.0143um monomer radius
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BA.256.03, 50%/50% astrosilicate/graphite, a0=0.0143um monomer radius
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BAM1.256.01, 50%/50% astrosilicate/graphite, a0=0.0170um monomer radius
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BAM1.256.02, 50%/50% astrosilicate/graphite, a0=0.0170um monomer radius
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BAM1.256.03, 50%/50% astrosilicate/graphite, a0=0.0170um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0200um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0200um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0200um monomer radius
- Fig. 7:
Multiwavelength data for BAM2.256 clusters in Figure 7.
theta, phi, pol, S_11, S_12, S_21, S_22, S_31, S_41 given for each of 4 scattering planes (phi=0, 90, 180, 270)
pol, S_11, S_12, S_21, S_22, S_31, S_41 should be averaged over 4 values of phi.
32 wavelengths from lambda=0.100um to 3.981um.
Delta[log10(wave)]=0.05 from 0.10um to 0.3162um, Delta[log10(wave)]=0.10 from 0.3162um to 3.981um
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BAM2.256.01, 100% astrosilicate, a0=0.0400um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0400um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0400um monomer radius
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BAM2.256.01, 100% astrosilicate, a0=0.0500um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0500um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0500um monomer radius
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BAM2.256.01, 100% astrosilicate, a0=0.0600um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0600um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0600um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0400um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0400um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0400um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0500um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0500um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0500um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0600um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0600um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0600um monomer radius
11 wavelengths from lambda=0.3981um to 3.981um.
Delta[log10(wave)]=0.10
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BAM2.256.01, 100% astrosilicate, a0=0.0700um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0700um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0700um monomer radius
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BAM2.256.01, 100% astrosilicate, a0=0.0800um monomer radius
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BAM2.256.02, 100% astrosilicate, a0=0.0800um monomer radius
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BAM2.256.03, 100% astrosilicate, a0=0.0800um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0700um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0700um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0700um monomer radius
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BAM2.256.01, 50%/50% astrosilicate/graphite, a0=0.0800um monomer radius
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BAM2.256.02, 50%/50% astrosilicate/graphite, a0=0.0800um monomer radius
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BAM2.256.03, 50%/50% astrosilicate/graphite, a0=0.0800um monomer radius
- Fig. 8:
Multiwavelength data for BAM2.1024 clusters in Figure 8.
theta, phi, pol, S_11, S_12, S_21, S_22, S_31, S_41 given for each of 4 scattering planes (phi=0, 90, 180, 270)
pol, S_11, S_12, S_21, S_22, S_31, S_41 should be averaged over 4 values of phi.
14 wavelengths from lambda=0.3162um to 3.981um.
Delta[log10(wave)]=0.10
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BAM2.1024.01, 100% astrosilicate, a0=0.0800um monomer radius
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BAM2.1024.02, 100% astrosilicate, a0=0.0800um monomer radius
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BAM2.1024.03, 100% astrosilicate, a0=0.0800um monomer radius
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BAM2.1024.01, 100% astrosilicate, a0=0.1000um monomer radius
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BAM2.1024.02, 100% astrosilicate, a0=0.1000um monomer radius
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BAM2.1024.03, 100% astrosilicate, a0=0.1000um monomer radius
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BAM2.1024.01, 50%/50% astrosilicate/graphite, a0=0.0800um monomer radius
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BAM2.1024.02, 50%/50% astrosilicate/graphite, a0=0.0800um monomer radius
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BAM2.1024.03, 50%/50% astrosilicate/graphite, a0=0.0800um monomer radius
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BAM2.1024.01, 50%/50% astrosilicate/graphite, a0=0.1000um monomer radius
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BAM2.1024.02, 50%/50% astrosilicate/graphite, a0=0.1000um monomer radius
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BAM2.1024.03, 50%/50% astrosilicate/graphite, a0=0.1000um monomer radius
Geometries and images of BA, BAM1, and BAM2 ballistic aggregates
agglom.html
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