Print edition: ISSN 0913-5685 Online edition: ISSN 2432-6380
[TOP] | [2013] | [2014] | [2015] | [2016] | [2017] | [2018] | [2019] | [Japanese] / [English]
MR2016-20
Damping constant dependence of microwave assisted magnetization reversal and signal recording characteristics
Terumitsu Tanaka, Daisuke Sakamoto (Kyushu Univ.), Yasushi Kanai (Niigata Ins. Tech.), Kimihide Matsuyama (Kyushu Univ.)
pp. 1 - 5
MR2016-21
Switching-field reduction of the media layer by using a spin torque oscillators
Ryo Hiramatsu, Hitoshi Kubota, Sumito Tsunegi, Shingo Tamaru, Kay Yakushiji, Akio Fukushima, Shinji Yuasa (AIST)
pp. 7 - 12
MR2016-22
Three-dimensional magnetic recording using ferromagnetic resonance
Hirofumi Suto, Tazumi Nagasawa, Kiwamu Kudo, Taro Kanao, Koichi Mizushima, Rie Sato (Toshiba)
pp. 13 - 17
MR2016-23
Numerical simulation for inductive detection of magnetic vortex core rotation and polarity switching
Xiaorui Ya, Terumitsu Tanaka, Kimihide Matsuyama (Kyushu Univ.)
pp. 19 - 22
MR2016-24
Time-Resolved Imaging of Photoinduced Backward Volume Magnetostatic Wave and Exchange Resonance Mode
Keita Matsumoto, Kosei Himeno (Kyushu Univ.), Isao Yoshimine (Univ. Tokyo), Takuya Satoh (Kyushu Univ.)
pp. 23 - 26
MR2016-25
Electric field effect on magnetism in metallic ultra-thin films
Daichi Chiba (Univ. of Tokyo)
pp. 27 - 29
MR2016-26
Control of spin mixing conductance by ferromagnetic layer insertion into YIG/Pt interface
Ryohei Nakamura, Koki Tamae, Hiromi Yuasa (Kyushu Univ.)
pp. 31 - 34
MR2016-27
Accelerating to Show File Previous Versions Provided by Cloud Storage Gateway
Shinya Matsumoto (Hitachi/Tohoku Univ.), Masanori Takata (Hitachi), Atsushi Sutoh (Hitachi Europe)
pp. 35 - 40
MR2016-28
Modulation of spin absorption efficiency in a novel lateral spin valve
Toshiyuki Ogawa, Ginga Uematsu, Tatsuya Nomura, Takashi Kimura (Kyushu Univ.)
pp. 51 - 54
MR2016-29
Indirect detection of thermal spin signal in lateral spin valve
Ginga Uematsu, Tatsuya Nomura, Takashi Kimura (Kyushu Univ.)
pp. 55 - 57
Note: Each article is a technical report without peer review, and its polished version will be published elsewhere.