2017年第78回応用物理学会秋季学術講演会

講演情報

一般セッション(口頭講演)

3 光・フォトニクス » 3.12 ナノ領域光科学・近接場光学

[7a-A405-1~10] 3.12 ナノ領域光科学・近接場光学

3.11と3.12のコードシェアセッションあり

2017年9月7日(木) 09:00 〜 11:45 A405 (405+406)

金森 義明(東北大)

09:00 〜 09:15

[7a-A405-1] Nanoscale Temperature Mapping of Current-heated Narrow Metal Wires

〇(PC)Weng Qianchun1、Lin Kuanting1、Yoshida Kenji1、Komiyama Susumu2、Hirakawa Kazuhiko1、Kajihara Yusuke1 (1.IIS, Univ. of Tokyo、2.Basic Sci.,Univ.of Tokyo)

キーワード:nanothermometry, near-field, local Joule heating

Thermometry techniques with high spatial resolution on sub-micron scales have attracted great interest in recent years, being motivated by applications in a variety of areas such as microelectronic devices, dissipative quantum systems, and even living cells. However, realization of nanoscale temperature mapping is not an easy task: Development of high performance nanothermometric technique with negligible influence on the measured temperature is highly demanded. Here, we report a novel radiative-type thermometer which can overcome the diffraction-limit and achieve nanoscale spatial resolution. It is a home-made thermal near-field optical microscope, which is so sensitive to detect thermally induced fluctuating electromagnetic evanescent waves. The detected thermal near-field signal is then directly related to the electromagnetic energy density of thermal near-field radiation, which is temperature dependent. We will discuss the local temperature detection with the near-field approach, and demonstrate the real-space temperature mapping of a current-heated narrow metal wire. A hot-spot is directly imaged on the metal wire by our experimental technique, which should be due to the current-crowding induced strong energy dissipation.