論文雑誌「Advanced Physics Research 」のカバーピクチャーを制作しました[東京工業大学]
弊社で制作しました東京工業大学 西村涼先生 ご依頼のカバーアートが、
Wiley社が発行する学術雑誌 Advanced Physics Research 創刊号 Front Coverに選ばれました。
Client
東京工業大学
科学技術創成研究院 未来産業技術研究所
西村涼先生
科学技術創成研究院 未来産業技術研究所
西村涼先生
Journal
Advanced Physics Research
December 2022
December 2022
Lowering of Electrostatic Actuator Driving Voltage and Increasing Generated Force Using Spontaneous Polarization of Ferroelectric Nematic Liquid Crystals (Adv. Phys. Res. 1/2022)
Suzushi Nishimura, Satoshi Masuyama, Genichiro Shimizu, Chun-Yi Chen, Taku Ichibayashi, Junji Watanabe
Mode Division Multiplexing
In article number 202200017, Suzushi Nishimura and co-workers show ferroelectric nematic liquid crystals that can be used as electrostatic actuator media. The ferroelectric material's spontaneous polarization drastically increases the electrostatic actuator's generated force by a factor of 1000, which also shows a linear response to the applied voltage. When a double-helical coil electrode device fabricated by rapid prototyping with a 3D printer is filled with this material, the actuator operates at several tens of volts. The potential exists for a low-voltage, high-power, and lightweight actuator with a simple structure, which may find applications in the near future as an artificial muscle that helps people to stand and walk or as an actuator that does not use rare metals.
Link
Suzushi Nishimura, Satoshi Masuyama, Genichiro Shimizu, Chun-Yi Chen, Taku Ichibayashi, Junji Watanabe
Mode Division Multiplexing
In article number 202200017, Suzushi Nishimura and co-workers show ferroelectric nematic liquid crystals that can be used as electrostatic actuator media. The ferroelectric material's spontaneous polarization drastically increases the electrostatic actuator's generated force by a factor of 1000, which also shows a linear response to the applied voltage. When a double-helical coil electrode device fabricated by rapid prototyping with a 3D printer is filled with this material, the actuator operates at several tens of volts. The potential exists for a low-voltage, high-power, and lightweight actuator with a simple structure, which may find applications in the near future as an artificial muscle that helps people to stand and walk or as an actuator that does not use rare metals.
Link
