cF40-ZnC2N2 (Inverse)¶

cF40–ZnC₂N₂ (Inverse)¶

Image of cF40–ZnC₂N₂ (Inverse), generated by Vesta¶

Lattice Vectors:

\[\begin{split}a_1 &= 1/\sqrt{2}~\hat{y} + 1/\sqrt{2}~\hat{z}\\ a_2 &= 1/\sqrt{2}~\hat{x} + 1/\sqrt{2}~\hat{z}\\ a_3 &= 1/\sqrt{2}~\hat{x} + 1/\sqrt{2}~\hat{y}\\\end{split}\]

Space Group: 227

Point Group of Structure: \(m\bar{3}m\)

Structure DOI: https://doi.org/10.1021/ja4012707

Photonics DOI: Gap(s) for space group 227 above band(s) 2 theorized in: https://doi.org/10.1038/nmat979,: Gap(s) above band(s) 8 not previously studied

Source: Crystallographic Open Database #4119776

MPB Epsilon Input File: Download

Gap Atlas for \(\varepsilon = 16\)¶

Gap Atlas for \(\varepsilon\) = 16 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap Atlas for \(\varepsilon = 14\)¶

Gap Atlas for \(\varepsilon\) = 14 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap Atlas for \(\varepsilon = 12\)¶

Gap Atlas for \(\varepsilon\) = 12 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap Atlas for \(\varepsilon = 10\)¶

Gap Atlas for \(\varepsilon\) = 10 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap Atlas for \(\varepsilon = 8\)¶

Gap Atlas for \(\varepsilon\) = 8 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap Atlas for \(\varepsilon = 6\)¶

Gap Atlas for \(\varepsilon\) = 6 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap Atlas for \(\varepsilon = 4\)¶

Gap Atlas for \(\varepsilon\) = 4 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap Atlas for \(\varepsilon = 2\)¶

Gap Atlas for \(\varepsilon\) = 2 across filling fraction \(\phi\) and frequency \(\omega\).¶

Gap between Bands 2-3¶

Below is the band structure and isosurface of cF40–ZnC₂N₂ (Inverse) at dielectric contrast \(\varepsilon = 16\), radius \(r = 0.39\) and filling fraction \(\phi = 0.172\).

Band Structure across first Brillouin Zone.¶

View along \(a_1\).¶

Gap between Bands 8-9¶

Below is the band structure and isosurface of cF40–ZnC₂N₂ (Inverse) at dielectric contrast \(\varepsilon = 16\), radius \(r = 0.385\) and filling fraction \(\phi = 0.195\).

Band Structure across first Brillouin Zone.¶

View along \(a_1\).¶

cF40–ZnC₂N₂ (Inverse)¶

Gap Atlas for \(\varepsilon = 16\)¶

Gap Atlas for \(\varepsilon = 14\)¶

Gap Atlas for \(\varepsilon = 12\)¶

Gap Atlas for \(\varepsilon = 10\)¶

Gap Atlas for \(\varepsilon = 8\)¶

Gap Atlas for \(\varepsilon = 6\)¶

Gap Atlas for \(\varepsilon = 4\)¶

Gap Atlas for \(\varepsilon = 2\)¶

Gap between Bands 2-3¶

Gap between Bands 8-9¶

Photonic Structure Database

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Related Topics

cF40–ZnC2N2 (Inverse)¶

Gap Atlas for \(\varepsilon = 16\)¶

Gap Atlas for \(\varepsilon = 14\)¶

Gap Atlas for \(\varepsilon = 12\)¶

Gap Atlas for \(\varepsilon = 10\)¶

Gap Atlas for \(\varepsilon = 8\)¶

Gap Atlas for \(\varepsilon = 6\)¶

Gap Atlas for \(\varepsilon = 4\)¶

Gap Atlas for \(\varepsilon = 2\)¶

Gap between Bands 2-3¶

Gap between Bands 8-9¶

cF40–ZnC₂N₂ (Inverse)¶