论文信息 - Theory of resonant SNOM (scanning near-field optical microscopy): breakdown of the electric dipole selection rule in the reflection mode

Theory of resonant SNOM (scanning near-field optical microscopy): breakdown of the electric dipole selection rule in the reflection mode

A theoretical study is reported about SNOM with the use of light in resonance with the quantized levels of a mesoscopic sample. The microscopic variation of electromagnetic field and the coherence of matter state are properly treated by solving the microscopic Maxwell equations and Schrodinger equation self consistently. A remarkable effect, i.e., the breakdown of the dipole selection rule, is shown in the reflection mode where a probe tip is used for both illumination of the sample and collection of the signal. Namely, both dipole-active and higher-multipole-active levels give comparable signal intensities for appropriate probe tip positions.

Kikuo Cho | Yasushi Ohfuti | Kiyoshi Arima

[1] Kikuo Cho,et al. Study of Scanning Near-Field Optical Microscopy (SNOM) by Nonlocal Response Theory , 1995 .

[2] Cho,et al. General separability of linear and nonlinear optical susceptibilities. , 1995, Physical review. B, Condensed matter.

[3] Kikuo Cho,et al. Nonlocal aspects of the optical responses of mesoscopic systems , 1994 .

[4] Girard,et al. Model for scanning tunneling optical microscopy: A microscopic self-consistent approach. , 1990, Physical review. B, Condensed matter.

[5] S. Bozhevolnyi,et al. Configurational Resonances in Optical Near-field Microscopy: a Rigorous Point-dipole Approach , 1993 .