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Ryo Imura

Faculty
Department of Information Networking for Innovation and Design
Course of Information Networking for Innovation and Design
Information Networking for Innovation and Design collaboration Hub for University and Business
PositionProfessor
Mail
HomepageURL
Birthday
Last Updated :2020/05/30

Researcher Profile and Settings

Education

  •   1971 04  - 1977 03 , Nagoya University, School of Engineering

Academic & Professional Experience

  •   2017 04  - 2018 03 , Toyo University

Research Activities

Published Papers

  • Driving Ubiquitous Network - How can RFID Solutions meet the customer’s expectation -, Ryo Imura, ISSCC 2005, Signal Processing (invited), ISSCC 2005, Signal Processing (invited), Refereed
  • The World Smallest RFID μ-Chip bringing about new business and lifestyle, Ryo Imura, Proc. Symp VLSI Circuit Tech, Proc. Symp VLSI Circuit Tech, Refereed
  • The Mu-Chip: An Ultra-Small 2.45 GHz RFID Chip for Ubiquitous Recognition Applications, Ryo Imura, IEEE Trans on Elec., IEEE Trans on Elec., Vol.E-86-C, (No4) , Refereed
  • An ultra-small individual recognition security chip, Ryo Imura, IEEE MICRO, IEEE MICRO, Vol21, (No6) , Refereed
  • Nanoscale modification of phase change matetials with near-field light, Ryo Imura, MICROELECTRONIC ENG., MICROELECTRONIC ENG., 30, Refereed
  • Magnetic and electrical properties of single-phase, single-crystal Fe16N2 films epitaxially grown by molecular beam epitaxy, Ryo Imura, J. Appl Phys., J. Appl Phys., 79, (8) , Refereed
  • Phase-locked noncontact scanning force microscope, Ryo Imura, Rev. Sci. Instrum., Rev. Sci. Instrum., 66, (1) , Refereed
  • Demonstration of nanometer recording with a scanning probe microscope, Ryo Imura, MICROELECTRONIC ENG., MICROELECTRONIC ENG., 27, Refereed
  • Depth and State Analyses of Deuterium and Helium in D2-Annealed He+-Implanted Yttrium Iron Garnet, Ryo Imura, Jpn J. Appl. Phys., Jpn J. Appl. Phys., Vol34, (No11) , Refereed
  • Phase change writing in a GeSbTe film with scanning near-field optical microscope, Ryo Imura, Ultramicroscopy, Ultramicroscopy, (61) , Refereed
  • Silicon pn junction imaging and characterizations using sensitivity enhanced Kelvin probe force microscopy, Ryo Imura, Appl. Phys. Lett., Appl. Phys. Lett., 66, (25) , Refereed
  • Formation of nanometer-sized Au dots on Si substrate in air, Ryo Imura, J. Vac. Sci. Technol., J. Vac. Sci. Technol., B12, (3) , Refereed
  • Ultrahigh density data storage by atomic manipilation, Ryo Imura, Proc. Optical Data Storage SPIE, Proc. Optical Data Storage SPIE, Vol, (2338) , Refereed
  • Magnetic Force Microscope combined with, Ryo Imura, J. Vac. Sci. Technol., J. Vac. Sci. Technol., A11, (6) , Refereed
  • Stoichiometry measurement and electric characteristics of thin-film Ta2O5 insulator for ultra-large-scale integration, Ryo Imura, J. Appl. Phys., J. Appl. Phys., 74, (1) , Refereed
  • Depth Profiling of Hydrogen Implanted into Magnetic Bubble Garnet Films Using the 1H(15N, αγ)12C Reaction, Ryo Imura, Jpn. J. Appl. Phys., Jpn. J. Appl. Phys., 30, (No2) , Refereed
  • Garnet Films for 64Mb Bubble Memory Devices, Ryo Imura, IEEE Trans. Magn., IEEE Trans. Magn., Vol125, (No5) , Refereed
  • A METHOD FOR HIGH SENSITIVITY DEUTERIUM MEASUREMENTS BY MEANS OF THE D(3He, p)4 REACTION AND ITS APPLICATIONS, Ryo Imura, Nucl. Instr., Nucl. Instr., Method B, Refereed
  • Depth Profiling of Hydrogen Implanted into Magnetic Bubble Garnet by Using 1H(15N,αγ)12C Reaction, Ryo Imura, Proc. 6th Symp. Ion Beam Tech., Proc. 6th Symp. Ion Beam Tech., (No7) , Refereed
  • Profiling of Light Elements in the Surface Layer of Solid by Means of the ERDA Method, Ryo Imura, RIKEN Accelerator Prog. Report, RIKEN Accelerator Prog. Report, 22, Refereed
  • ION=IMPLANTED AND PERMALLOY HYBRID MAGNETIC BUBBLE MEMORY, Ryo Imura, IEEE Trans. Magn., IEEE Trans. Magn., MAG-22, Refereed
  • Comparison of the ERDA Method and 1H(15N,αγ)12C Reaction Method in Hydrogen Depth Profiling, Ryo Imura, RIKEN Accelerator Prog. Report, RIKEN Accelerator Prog. Report, 21, Refereed
  • Origin of Anomalous Increase in Anisotropy Field Change for Heavily Ion-Implanted Magnetc Bubble Garnets, Ryo Imura, J. Appl. Phys.,, J. Appl. Phys.,, 61, (No5) , Refereed
  • HYDROGEN OUT-DIFFUSION SUPPRESSION EFFECT OF OVERLAYERS IN H-2(+)-IMPLANTED MAGNETIC-BUBBLE GARNET, R IMURA, Y SUGITA, JOURNAL OF APPLIED PHYSICS, JOURNAL OF APPLIED PHYSICS, 60, (9) 3269 - 3274, 11 , Refereed
  • Elastic Recoil Analysis of Implanted H2+ Ions in Magnetic Bubble Garnets, Ryo Imura, RIKEN Accelerator Prog. Report, RIKEN Accelerator Prog. Report, 20, Refereed
  • Thermal stability and aging effect of hydrogen-implanted bubble garnet films, Ryo Imura, J. Appl. Phys., J. Appl. Phys., 60, (No7) , Refereed
  • Annealing Effects in Heavily Ion-Implanted Magnetic Bubble Garnet Films, Ryo Imura, Jpn. J. Appl. Phys., Jpn. J. Appl. Phys., 23, (No9) , Refereed
  • H2+ ion-implantation effect in vacuum-evaporated permalloy films, Ryo Imura, Appl. Phys. Lett., Appl. Phys. Lett., 42, (No3) 302 - 302, Refereed
  • Spin Glass State of MnxNi1-xSb : Synthesis in High Pressure and High Temperature Atmospheres, Ryo Imura, J. Phys. Soc. Jpn., J. Phys. Soc. Jpn., 44, (No1) 114 - 118, Refereed

Books etc

  • MOT Program Case Study Text “The Mu Chip”
    Ryo Imura
    共著UCB MOT ProgramThe University of California, Berkeley Haas  2002

Patents

  • 特願P2004-032978, 特開P2005-227818, 特許P04368217
  • 特願P91111586, 特許PI292885
  • 特願P2004-269107, 特開P2005-018807, 特許P03938174
  • 特願P2002-084741, 特開P2003-281495
  • 特願P59-176856, 特開P61-057016, 特表P06-064695, 特許P01933574
  • 特願P59-005585, 特開P60-150613, 特表P06-044543, 特許P01919976
  • 特願P6028/85, 特許P10-0076843
  • 特願P57-024350, 特開P58-142510, 特表P05-072090, 特許P01865547
  • 特願P57-094849, 特開P58-213485, 特表P04-062191, 特許P01775121
  • 特願P8500677, 特許P08500677
  • 特願PP3584747.6, 特許P00174144
  • 特願P85306013.5, 特許P00174144
  • 特願P8418965, 特許P08418965
  • 特願P07/225368, 特許P04894098
  • 特願P06/768965, 特許P04772976
  • 特願PP3213768.0, 特許P3213768
  • 特願P54-045318, 特開P55-139688, 特表P62-014915, 特許P01407820
  • 特願P06/680891, 特許P04701385
  • JIKI *BUBBIE MEMORY MODULE, Ryo Imura, 特願P7904638
  • 特願P60-126019, 特開P61-284894
  • 特願P60-074207, 特開P61-234020
  • 特願P60-010846, 特開P61-170979
  • 特願P06/691128, 特許P04600488
  • 特願P59-262777, 特開P61-141114
  • 特願P55-037490, 特開P55-146688, 特表P60-048836, 特許P01323588
  • 特願P59-233165, 特開P61-113181
  • 特願P06/375216, 特許P04556583
  • 特願P06/375180, 特許P04556582
  • 特願P59-011940, 特開P59-011940
  • 特願P58-234244, 特開P60-127594
  • 特願P58-194278, 特開P60-087495
  • 特願P8213327, 特許P02100079
  • 特願P8213108, 特許P02101433
  • 特願P8210793, 特許P02098818
  • 特願P59-139008, 特開P60-040592
  • 特願P06/465298, 特許P04476152
  • 特願P54-100274, 特開P56-025283, 特表P59-002112, 特許P01228138
  • 特願P54-031129, 特開P55-012595, 特表P58-049947, 特許P01216400
  • 特願P06/367675, 特許P04460412
  • 特願P57-209411, 特開P59-100541
  • 特願P58-157829, 特開P59-058687
  • 特願P57-116772, 特開P59-008336
  • 特願P57-111732, 特開P59-003776
  • 特願P57-094854, 特開P58-213867
  • 特願PP3217550.7, 特許P03217550
  • 特願PP3217501.9, 特許P03217501
  • 特願P57-044468, 特開P58-164082
  • 特願P54-051202, 特開P55-143629, 特表P57-050290, 特許P01161751
  • 特願P57-011715, 特開P58-130489
  • 特願P56-196806, 特開P58-100349
  • 特願P53-072158, 特開P55-001606, 特表P58-027909
  • 特願P56-112135, 特開P58-014035
  • JIKI *BUBBIE MEMORY MODULE, Ryo Imura, 特願P7920362, 特許P02023362
  • 特願P56-069442, 特開P57-186286
  • 特願P56-069441, 特開P57-186285
  • 特願P56-069440, 特開P57-186284
  • 特願P56-055551, 特開P57-170510
  • JIKI *BUBBIE MEMORY MODULE, Ryo Imura, 特願PP2923958.5, 特許P02923958
  • 特願U55-132301, 特開U57-056399
  • JIKI *BUBBIE MEMORY MODULE, Ryo Imura, 特願P06/046027, 特許P04321690
  • 特願U54-121821, 特開U56-041896
  • 特願U54-101849, 特開U56-021896
  • 特願U54-101848, 特開U56-021444
  • JIKI *BUBBLE *CHIP JISSOU KIBAN, Ryo Imura, 特願P06/054797, 特許P04246646
  • 特願U54-077079, 特開U55-178739
  • 特願U53-081895, 特開U54-184032
  • 特願U53-092842