Mizuno Seiji

ミズノセイジ | Mizuno Seiji

Affiliation and department：
Homepage URL (1)： https://kaken.nii.ac.jp/d/r/90222322.ja.html

Research field (6)： Crystal engineering , Applied materials , Applied physics - general , Nanobioscience , Nanomaterials , Computational science

Research keywords (30)：フォノン , バンド構造 , 第一原理計算 , 超格子 , グラファイト状化合物 , 層状物質 , カルビン , フォノン透過率 , バンド計算 , トンネル効果 , 共鳴透過 , グラファイト層間化合物 , 分散関係 , ナノワイヤー超格子 , 電子構造 , 局在振動モード , 量子細線 , フォノニック結晶 , 振動モード , 電場変調分光 , ナノ構造 , クラマ-ス・クロニヒ変換 , 有機非線形光学材料 , THz , BC_3とBC_2N , 音響フォノン , 熱伝導率 , 非線形屈折率効果 , FDTD法 , 光ファイバー

Research theme for competitive and other funds (14)：

2014 - 2017 Vibrational modes and symmetry of wire-type phononic crystals composed of III-V semiconductors
2009 - 2012 Vaibrational modes and phonon dynamics in wire-type phononic crystals
2005 - 2007 Theoretical study on phonons in nanowire superlattices
2001 - 2003 Design of a superlattice-based resonant-tunneling-device for phonons
2000 - 2002 Dynamics of coherent acoustic phonons in nanostructures

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Papers (61)：

Seiji Mizuno. Fano resonances and bound states in the continuum in a simple phononic system. Applied Physics Express. 2019. 12. 3. 035504-1-035504-6
Iwai Yuki, Mizuno Seiji. Coherent guided acoustic phonons in GaN/AlN nanowire superlattices. JAPANESE JOURNAL OF APPLIED PHYSICS. 2018. 57. 7
Seiji Mizuno. Acoustic low-frequency forbidden transmission in solid- fluid superlattices. Proceedings of Symposium on Ultrasonic Electronics. 2018. 39. 2P14/1-2P14/2
Seiji Mizuno. Coherent Guided Acoustic Phonons in GaN/AlN Nanowire Superlattices. Proceedings of Symposium on Ultrasonic Electronics. 2017. 38. 2P110/1-2P110/2
Seiji Mizuno. Phononic bandgaps peculiar to solid-fluid superlattices. JAPANESE JOURNAL OF APPLIED PHYSICS. 2016. 55. 1

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MISC (64)：

Seiji Mizuno. Variational method with Legendre-basis-functions: calculation of acoustic phonon modes in nanowires. Proceedings of Symposium on Ultrasonic Electronics. 2017. 38. 2P12/1-2P12/2
Seiji Mizuno. Flat bands in one-dimensional solid fluid Phononic crystals. Proceedings of Symposium on Ultrasonic Electronics. 2014. 35. 35-36
Mizuno Seiji. 2P1-10 Vibrational modes and symmetry in a hexagonal cross-section nanowire. Proceedings of Symposium on Ultrasonic Electronics. 2013. 34. 207-208
Mizuno Seiji. 2E1-3 Mode Conversion of Phonons and Resonance Gap in Solid-Liquid Superlattices(Ultrasonic Properties of Materials, Phonon Physics, Acousto-optics). Proceedings of Symposium on Ultrasonic Electronics. 2011. 32. 55-56
Nakayama Takuro, Mizuno Seiji. 3P-5 Phonon Propagation in Solid-liquid Superlattices. Proceedings of Symposium on Ultrasonic Electronics. 2010. 31. 465-466

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Books (3)：

Resonant interaction of acoustic phonons with localized vibrational modes in superlattices
Nova Science Publishers, Inc. 2017
フォノニック結晶の基礎 : 弾性波動論入門
アイピーシー 2008 ISBN:9784901493062
Recent Research Developments in Physics, Vol.3
Transworld Research Network 2002

Lectures and oral presentations (6)：

Acoustic low-frequency forbidden transmission in solid-fluid superlattices
(Symposium on Ultrasonic Electronics, 2018)
Acoustic phonon modes in nanowire superlattices
(International Symposium for Advanced Materials Research 2017)
Variational method with Legendre-basis-functions: calculation of acoustic phonon modes in nanowires
(Symposium on Ultrasonic Electronics, 2017)
Coherent Guided Acoustic Phonons in GaN/AlN Nanowire Superlattices.
(Symposium on Ultrasonic Electronics, 2017)
Acoustic phonon modes and dispersion relations of nanowire superlattices
(EMN Croatia meeting 2016)

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Professional career (1)：

工学博士 (筑波大学)

Work history (1)：

2014 - Hokkaido University

Awards (1)：

1990 - 井上科学振興財団井上研究奨励賞グラファイト層間化合物 C8K, C4nKHX の電子構造

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