運動学的回折

kinematical diffraction

結晶性の試料に入射した電子はブラッグ条件を満たす格子面で反射(回折)する。反射が試料中で1回しか起こらないと仮定して回折現象を扱う近似法をいう。反射の強度は結晶構造因子の二乗に比例する。この近似は試料が薄い場合になりたつ(おおざっぱにいって 3nm以下)。試料が厚くなると何回も反射が起きるので、この近似はなりたたなくなり、回折強度や電顕像の説明には動力学的回折理論を適用しなければならない。

An electron that passes through a crystalline specimen is reflected (diffracted) by lattice planes satisfying a Bragg condition. The kinematical diffraction approximation assumes that the Bragg reflection occurs only one time in the specimen. In this context, the reflection intensity is proportional to the square of the crystal structure factor of the reflection. This approximation holds only when a specimen is thin enough (<3 nm). As a specimen is thicker, the reflection occurs many times. In this case, the dynamical diffraction theory must be applied to the interpretation of reflection intensities and electron microscope images.