#page(flipped: true)[ #figure({ set text(size: 9pt); set par(justify: false); let m(n, content) = table.cell(colspan: n, content); let m2(content) = table.cell(colspan: 2, content); let m3(content) = table.cell(colspan: 3, content); let A1 = [A#sub[1]]; let A2 = [A#sub[2]]; let B1 = [B#sub[1]]; let B2 = [B#sub[2]]; let E1 = [E#sub[1]]; let E2 = [E#sub[2]]; let NA = [Not Applicable] let lopc = [Yes#linebreak() (LOPC)]; let overf = [Yes#linebreak() (overfocused)]; table(columns: 19, align: center + horizon, inset: (x: 3pt, y: 5pt), m2[*Incident Direction*], m(4)[z], m(4)[y], m(9)[between z and y, 20#sym.degree to z], m2[*Vibration Direction*], // TODO: check LO-TO mixed [TO (x)], [TO (y)], m2[LO (z)], m3[TO (z)], [TO (x)], [LO (y)], m3[TO (y-z mixed)], [TO (x)], m(4)[LO (y-z mixed)], table.cell(rowspan: 2)[*Representation*], [C#sub[6v]], m2(E1), m2(A1), m(13, NA), [C#sub[2v]], B2, B1, m2(A1), m2(A1), B2, B1, m(9, NA), table.cell(rowspan: 2)[*Raman Tensor*], [Non-zero components], [xz], [yz], [xx, yy], [zz], // z [xx, yy], [zz], [xz], [yz], // y [xx], [yy], [yz], [zz], [xz], [xx], [yy], [yz], [zz], // 25 y&z [Simulation Result (a.u.)], // TODO: raman intensity, or raman tensor? m2[53.52], [58.26], [464.69], // z [58.26], [454.09], [53.52], [53.55], // y m2[53.71], [3.20], [425.98], [53.56], m2[3.60], [50.36], [27.99], // 45 y&z m2[*Visible in Common Raman Experiment*], m(17)[Yes], m2[*Wavenumber (Simulation) (cm#super[-1])*], // z y 45 y&z m2[776.57], m2[933.80], m2[761.80], [776.57], [941.33], m(4)[762.76], [776.57], m(4)[940.86], m2[*Electrical Polarity*], m(17)[Strong] )}, caption: [Strong-polarized phonons near $Gamma$ point], ) ]