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Prof. Muralidhar Miryala

Prof. Muralidhar Miryala Mail
Graduate School of Science and Engineering; Shibaura Institute of Technology (SIT), Japan

Muralidhar Miryala had received Ph.D degree in High Tc Superconductivity from Osmania University, Hyderabad, India, in 1993. Afterwards (1994-1995), he had worked as a lecturer and principal investigator in a young-scientist project.  Subsequently, he joined a superconductivity research laboratory (SRL), ISTEC as a research scientist and worked for 13 years. He developed a new class of mixed LRE-123 system which can be used up to 15 T at 77 K and high temperatures up to 90.2 K.  He also developed a novel technology to produce a RE-123 type silver sheathed wire on the basis of solid state / liquid phase reaction. His intellectual mindset enabled him to produce a small type superconducting bulk magnet which is useful to magnetize both high-Tc superconducting materials and magnetic materials in a variety of industrial applications. Further, he also contributed to develop technology for the development of DC Superconducting Cable for Railway system applications. He is an author and co-author for more than 375 publications in international journals. He holds several Japanese national and international patents, several books etc.,. Awards: Young Scientist Project Award, DST-Govt. of India (1995), Director’s Award, SRL-ISTEC (1998 and 2003), 1999 PASREG Award of Excellence (1999), Best Presentation Award at the IWCC11 (2003), Best Researcher Award, ISTEC-SRL (2007 and 2008), Best Researcher Award, Railway Technical Research Institute (2012). The Amity Global Academic Excellence Award is bestowed during the summit and celebrates individuals who make remarkable contributions in academia and higher education management (2017). Currently, he is working at Shibaura Institute of Technology and is serving the duties of Deputy President and Professor.

Highlighted Achievements:
 Globally recognized for 20 years of national and international research experience by
working in international famous institutes
 Obtained 15 years of experience in securing funding for the national and international institutes
and universities to conduct research and improve educational standards
 Highly known for dealing various national and international universities to improve
educational standards by exchanging the programs
 Awarded for various national and international awards due to my intellectual capabilities in the
area of research, teaching and administration (See Award List).
 I had been awarded twice as a Director Award in International Superconductivity Technology
Center, Government of Japan to improve funding, research and high standards in the area of
research. Please note that this award is given once a year among 500 scientists.
 Invention of a new class of mixed LRE-123 high-temperature superconducting system,
which can be used up to 15 T at 77 K and at high temperatures up to 90.2 K.
 Invention of a new technology to produce a RE-123 type silver sheathed wire on the basis
of solid state / liquid phase reaction.
 Filed numerous Japanese national and international patents.
 Collaborated and managed various administrative programs for government, universities and
research institutes and improved dealings and relationships between government bodies and
educational and research institutes
 Acknowledged as a key advisor to the President Shibaura Institute of Technology, Tokyo
which is known as top most research and educational institute in Japan. This institution
is recognized to obtain a record of 98% of students having a job after completion of
Bachelor’s degree.
 Leaded as Director for IH Internship Program at Shibaura Institute of Technology.
 Chair for QS and Thomson Reuters World Ranking Projects
 Attained 6 years of teaching experience in national and international organizations for Bachelor and Master programs.
 I have been greatly honored and recognized in various newspapers and TV shows for my greatest achievements and excellence in the area of research and education

 Research Findings were published on top cover page of high class peer reviewed journals(7 times)

 An author and co-author of more than 257 publications in international journals. This background is unique due to my rank as top 5 among 700 teaching staff in SIT.
 An author of more than 16 chapters and review articles in books.
 An author of more than 4 chapters and review articles in Journals.
 Presented more than 70 Invited and Oral presentations in international conferences.
 Presented more than 150 Posters in International/National conferences
 Served as a key member of development of bulk materials at SRL.
 Several times cited as leading researcher in Marquis Who`s Who in the World.
 Editorial Board Member of ISRN Condensed Matter Physics.
 Editorial Board Member of Advances in Materials.
 Editorial Board Member of Nova Science
 Editorial Board Member of Journal of Electrical Engineering
 Consulting Editor of the Contemporary Who`s Who.
 A referee of many national and international journals including research proposals.
 Presently serving as a Referee to
Nature, Phys. Rev. Lett., Physical Rev. B, Appl. Phys. Lett., J. Appl. Phys.,, Supercond. Sci.
Technol., J. Alloys Compd., Mat. Res., Physica C, JJAP, JMR, Cryogenics, J. Low Temp. Phys.,
Ceramics Inter., J. Phys. D, Mater. Res. Bull., Cent. Eur. J. Phys.,, J. Phys. Chem., Japan Science
and Techmology, Govt. of Japan Research proposals, Ph.D Thesis., etc.
 Pioneer of Global Project Based Learning Program with IIT Madras (India), Saarland
University (Germany), Slovakia Academy of Sciences (Kiosice), and Czech Academy of
Sciences (Czech Republic).
 Initiator of Long Term Internship Program with Global Community

 Executed Mass Online Open Course Ware Material at SIT

Honors, awards and recognitions:
1985 Awarded University Bursary fellow in M.Sc,
1991 ICTP Guest Scientiste, ICTP, Trieste, Italy,
1995 Young Scientist Project Award, DST, Govt. of India,
1996 Science & Technology Agency (STA) Fellowship, Japan
-Noted as a prestigious fellowship for post-doc awarded by Japanese Government.
1998 Director Award, SRL-ISTEC, Tokyo, Japan
-Honored for new class discovery of NEG-123 material which will be useful for
MRI/NMR, drug delivery, water purification applications and transportation facilities.
1998 Iwate, Govt. of Japan Fellowship, Japan
1999 PASREG Award of Excellence
-Recognized for distinguished achievements in the field of bulk superconductivity by
International PASREG committee
1999 New Energy Development Organization (NEDO), Govt. of Japan, Fellow,
-Regarded as highly prestigious award since it is strongly competed among
national/international research scholars
2001 Best Poster Presentation Award at the ICMC/CEC, USA
2003 Best Oral Presentation Award at the IWCC 11, Tokyo
-This award was selected in International Workshop on Critical Currents in
Superconductors. This award is presented to an individual among all presentations.
2003 Director Award, SRL-ISTEC, Tokyo
-Nationally/Internationally honored for first levitation in liquid oxygen temperature
which is applied for aeronautic/medical applications
2004 Awarded most popular paper at Supercond. Sci. Tech., IOP Publishers, U.K,

2007 ISTEC-Awards for excellence in Research, SRL-ISTEC, Tokyo
-Awarded for development of low-cost and high performance superconducting thick
films produced on silver sheeted substrates
2008 ISTEC-Awards for excellence in Research, SRL-ISTEC, Tokyo
-Awarded for development of new class of superconducting silver sheeted tape which
could enhance the power industry/applications
2012 RTRI-Awards for excellence in Research, JR-RTRI, Tokyo
-Honored for the development of portable and mobile permanent superconducting super
magnet system. Further, this is very useful for medical applications.
2017 Amity Global Academic Excellence Award, INBUSH ERA World summit 2017., India
-The Amity Global Academic excellence Award is bestowed during the summit and
celebrates individuals who make remarkable contribution in academic and higher
education management.

Patents accepted and submitted
1. RE123 Based Oxide Superconductor and Method of Production of same, Patent number US
7964532 B2, June21, 2011.
2. Seed crystal for production of superconductor and manufacturing method, Patent number 2010-
244160, Date of filling: October 29, 2010 (Japan).
3. RE123 Based Oxide Superconductor and Method of Production of same, Patent number US
2009/0270260 A1, Oct. 29, 2009.
4. RE123 Based Oxide Superconductor and Method of Production of same, Patent number
EP1865575 A1, Dec, 2007.
5. Oxide Superconductor of High Critical Current Density, Patent Number KN02B317-2, Date of
filling: June15, 2003 (Japan).
6. Oxide Superconductor of High Critical Current Density, Patent Number KN02B317, Date of
filling: Nov. 7, 2002 (Japan)
7. Oxide Superconductor of High Critical Current Density, Patent Number N01B314, Date of
filling: July 5, 2002 (Japan)
8. Oxide Superconductor of High Critical Current Density, Patent Number 6,063,736, Date of
Patent: May16, 2000, USA
9. Oxide Superconductor of High Critical Current Density, Patent Number 99112407.4, Date of
Patent: October 28, 1999, Europe
10. Oxide Superconductor of High Critical Current Density, Patent Number 10-187729, Date of
Patent: July1, 1988, (Japan)

RESEARCH PUBLICATION HISTORY
Authored books:
1) “Superconductivity: Recent Developments and New Production Technologies”
Nova Science Publishers, New York 2012.
2) “Superconductivity: Today and Tomorrows Applications”
Nova Science Publishers, New York 2015.

Review articles in books and Journals
[1] Superconductivity in Oxides
M. Muralidhar, M. Murakami
J. Phys. D: Appl. Phys. (2016) at press.
[2] DEVELOPMENT OF SILVER SHEATHED SUPERCONDUCTING RE-123 THICK FILMS PRODUCED BY
SOLID PHASE (REBA2O4) – LIQUID PHASE (BACUO2) REACTION
M. Muralidhar, M. Jirsa, M. Murakami
Superconductivity: Today and Tomorrows Applications", edited by Miryala Muralidhar
(Nova Science Publishers), New York, pp.215-232, 2015
[3] “Electric and magnetic characterization of bulk Ag-added MgB2”
A. Wiederhold, M.R Koblischka, K.Inoue, M. Muralidhar, K. Berger, B. Douine, T. Hauet, M.
Murakami and U. Hartmann.
Superconductivity: Today and Tomorrows Applications", edited by Miryala Muralidhar
(Nova Science Publishers), New York, pp. 269-2782015.
[4] “Development of Nano-Structured HTSC for Application in Medicine”
M.Muralidhar, M.R.Koblischka, M.Tomita Current Microscopy Contributions to Advances in
Science and Technology, Microscopy Book Series No.5, pp.1468-1479, 2012.
[5] “LRE-Ba2Cu3Oy superconductors on the way to applications”
M.Muralidhar, K. Suzuki, M.Jirsa, M.Tomita
“Superconductivity: Recent Developments and New Production Technologies", edited by
Miryala Muralidhar, (Nova Science Publishers), New York, pp. 11-29, 2012.
[6] “Mass Production of Low-Cost LRE-123 bulk superconductors: Processing, Flux Pinning and
its Application Potential up to Liquid Argon Temperature Publishers”.
M. Muralidhar, M. Tomita
Studies of High Temperature Superconductors", edited by Vladimir Rem Romanovaski
(Nova Science Publishers), New York, pp.513-534, 2012.
[7] “Design and development of mobile permanent magnet system using the GdBaCuO
superconductors”.
M. Tomita, Y. Fukomoto, M. Muralidhar
“Superconductivity: Recent Developments and New Production Technologies", edited by Miryala
Muralidhar, (Nova Science Publishers), New York, pp. 203-213, 2012.
[8] “Patents relating to production of bulk ternary LRE- materials intended for application at high
magnetic fields and temperatures”.
M. Muralidhar, M. Jirsa, M. Tomita
Journal of Recent Patents on Material Science, Vol. 5, pp.4-17, 2012.
[9] “Nanoscale Pinning in the LRE-123 System - the Way to Applications up to Liquid Oxygen
Temperature and High Magnetic Fields”
M. Muralidhar, M. Tomita, M. Jirsa
Superconductor, The Sciyo Publishers, pp.203-228 2010.
[10] “Levitation at 90.2 K and its applications”
M. Muralidhar,N.Sakai, M. Jirsa, M. Murakami, I.Hirabayashi
Int. J. of Con. Matt. Adv. Mater. & Super. Vol 6, pp.269-292, 2008.
[11] “Nanoscale investigations on melt-textured and single-crystalline (Nd,Eu,Gd)Ba2Cu3Oy (NEG)
high Tc superconductors.
M.R. Koblischka, P. Das, T. Wolf, M. Muralidhar, A. Koblischka-Veneva, and U. Hartmann
“New Research on YBCO Superconductors", edited by David M. Friedman, (Nova Science
Publishers), New York, pp. 9-21, 2008.
[12] “Levitation at 90.2 K”
M. Muralidhar,N.Sakai, M. Jirsa, M. Murakami, I.Hirabayashi
"Studies of High Temperature Superconductors", Golden Jubilee Volume, edited by A. V.
Narlikar (NovaScience Publishers, New York, vol. 50, pp229-251, 2006.
[13] “Flux Pinning and Irreversibility field in mixed RE-123
M. Muralidhar
"Critical Currents in Superconductors", edited by M. Murakami, pp127-148, 2005.
[14] “Dramatic Improvement of High-Field Pinning in NEG-123 via Structure Modulation on
Nonometer-Scale
M. Muralidhar, M. Jirsa, N. Sakai and M. Murakami
Recent Research Developments in Applied Physics, 6, pp813-827, 2003.
[15] “Nanometer-sized defects responsible for strong flux pinning in NEG-123 superconductor at 77
K”
M. Muralidhar, M. Murakami; "Superconductivity, Physics and Applications", edited by K.
Fossheim and A. Sudbo (Wiley & Sons), pp 378, 2004.
[16] “Progress in melt-processed (Nd-Sm-Gd)Ba2Cu3Oy superconductors”
M. Muralidhar, M. Jirsa, N. Sakai, and M. Murakami 

Supercond. Sci. Technol. vol. 16, pp. R1-R16, 2003

[17] “Critical current density and matrix chemical ratio in melt processed (Nd, Eu, Gd)-Ba-Cu-
Osuperconductors”
M. Muralidhar, and M. Murakami
"Studies of High Temperature Superconductors", edited by A.V.NovaScience Publishers,New York,
vol. 41, pp.106-128 , 2002.
[18] Fabrication of large grain (Nd0.33Eu0.33Gd0.33) Ba2Cu3O7 for high field applications
M. Muralidhar and M. Murakami
Journal of Advances in Cryogenic Engineering., 48 (2002) 669.
[19] “Microstructure and flux pinning in melt processed (Nd, Eu, Gd)-Ba-Cu-O superconductor
M. Muralidhar, M. R. Koblischka and M. Murakami
"Studies of High Temperature Superconductors", NovaScience Publishers, New York, vol. 31,
pp. 89-120, 2000.
[20] Flux pinning in 123-type high-Tc superconductors
M. R. Koblischka, M. Muralidhar and M. Murakami
"Studies of High Temperature Superconductors",
NovaScience Publishers, New York, vol. 32, pp. 221-244, 2000.Japan.

INVITED and ORAL Presentations
[1] Plenary “High-Tc superconductor technology and its upcoming applications for day life of public”
International Business Summit & Research Conference (INBUSH), ERA World Summit 2017,
February 8-10, 2017, Noida, India.
[2] Oral “Record critical current density in bulk MgB2 using carbon-coated amorphous boron and
optimum sintering conditions”
29th International Symposium on Superconductivity, December 13-15, 2016, Tokyo International
Forum, Tokyo, Japan.
[3] Plenary “The key to success for global universities international collaboration” 12th QS ASIA Pacific
Professional Leaders in Education conference and exhibition, November 22-24, 2016, Putrajaya,
Malaysia.
[4] Oral “Improved critical current densities of bulk MgB2 using carbon-coated amorphous boron” 2016
Applied Superconductivity Conference, September 4-9, 2016, Denver, Colorado, USA.
[5] INVITED: “Application of High Tc Superconducting Technology Use in the Day Life of Public”
BIT’s Annual World Congress of Advanced Materials 2016, June 6-8, 2016, Chongqing, China.
[6] Oral “Development of the SIT students’ English skills by adopting innovative techniques”
World Engineering Conference and Convention 2015, November 29-December 2, 2015, Kyoto, Japan.
[7] Oral “Large Critical Current Densities in Sintered Bulk MgB2 Material”
28th International Symposium on Superconductivity, November 16-18, 2015, Tokyo, Japan.
[8] INVITED: “Recent developments on RE-123 and MgB2 materials at Shibaura Institute of
Technology” The 9th International Workshop on Processing and Application of Superconducting (RE)BCO
Large Grain Materials, September 2-4, 2015, Liege., Belgium.
[9] INVITED: “Improved flux pinning and critical current densities in sintered bulk MgB2”
Japan-UK Superconducting Bulk Seminar at SIT, June 15, 2015, SIT, Tokyo, Japan
[10] INVITED: “Improved Flux Pinning and Critical Current Densities in Sintered Bulk MgB2”
2015 Joint UK-Japan Workshop on Physics and Applications of Superconductivity, 12-15 April 2015,
King’s College, University of Cambridge, Cambridge, UK.
[11] ORAL: “Critical Current Densities in Ag-added Bulk MgB2”
27th International Symposium on Superconductivity, November 25-27, 2014, Tokyo, Japan.
[12] ORAL: “SIT Summer Internship Program for International High School Students ”
4th Asian Conference on Engineering Education, October 10-12, 2014, Kumamoto, Japan,
[13] INVITED: Recent Developments in Bulk RE-123 and MgB2 Materials at Shibaura Institute of
Technology
13th Summer School on High Temperature Superconducting Bulk Materials, August 29-30, 2014, Iwate,

[14] ORAL: “Fabrication of MgB2 bulk magnets with high critical currents”
INTERNATIONAL CONFERENCES MATERIALS AND TECHNOLOGIES, CIMTEC 2014, June 15-
20, 2014, Montecatini Terme, Tuscany, Italy.
[15] INVITED: “Recent developments in high Tc superconducting materials at RTRI and SIT”
Saarland University, Saarbruecken, September 25, 2013, Germany.
[16] INVITED: “SGU activities and Superconductivity research at SIT”
Presented at Institute of Physics, Academy of Sciences of the Czech Republic, October 1, 2013, Prague,
CZ
[17] INVITED: Recent Developments in melt processed LRE-123 and MgB2 materials at RTRI
7th International Workshop on Processing and Application of Superconducting (RE)BCO large grain
materials, December 7, 2012, Tainan, Taiwan.
[18] INVITED: Recent Developments in LRE-123 materials and superconducting cables at RTRI
Invited lecture at Institute of Physics, Academia Sinica, December 6, Taipei, Taiwan.
[19] ORAL:A study on process optimization for high trapped field MgB2 bulk materials
25th International Symposium on Superconductivity, December 3-5, 2012, Tokyo, Japan.
[20] INVITED: Research for Applications of Bulk Iron Pnictide Superconductors
Invited lecture at Shibaura Institute of Technology, Department of Material Science and Engineering,
November 13, 2012, Tokyo, Japan.
[21] INVITED: Recent progress on batch processed large size LRE-123 and its applications
Invited lecture at Shibaura Institute of Technology, Department of Material Science and Engineering,
October 30, 2012, Tokyo, Japan.
[22] ORAL: Optimization of Processing Conditions for the High Trapped Field in MgB2
M2S 2012 Materials & Mechanisms of Superconductivity Conference, Omani Shoreham Hotel, July 29 –
August 3, 2012, Washington, D.C., USA.
[23] INVITED: Nd-123 Thin Film Seeds for Batch Production of Large LRE-123 Bulk Superconductors
Invited lecture at Shibaura Institute of Technology, Department of Material Science and Engineering,
November 15, 2011, Tokyo, Japan.
[24] ORAL: Batch production of large size bulk superconductors produced in OCMG process
Superconductivity Centennial Conference 2011, EUCAS-ISEC-ICMC 2011, September 18-23, 2011
World Forum, The Hague, the Netherlands.
[25] INVITED: High-quality Nd-123/MgO thin film seeds for batch production of large LRE-123 bulk
superconductors”
The KSS 2011, Yougpyong Resort, June 29-July 1, 2011, Republic of Korea.
[26] INVITED: Recent developments in bulk LRE-123: processing, nano pinning, and its applications
Invited lecture at Neutron Science Division, Korea Atomic Research Institute, Daejeon, June 28, 2011,
Republic of Korea
[27] ORAL: Recent progress on batch processed large size LRE-123 bulk superconductors using a navel
thin film Nd-123 seeds
24th International Symposium on Superconductivity, October 24-26, 2011, Tokyo, Japan.
[28] INVITED: New seed applicable for mass production of LREBa2Cu3Oy singe grain bulks
The 7th International Workshop on Processing and Application of Superconducting (RE)BCO Large Grain
Materials, O.S Hotel, July 29-31, 2010, Washington, D.C., USA.
[29] ORAL: Mass production of low-cost GdBaCuO bulk superconductors using a novel seed in the
batch process
The 2010 Applied Superconductivity Conference, August 1-6, 2010 O.S Hotel, Washington, D.C.,USA.
[30] ORAL: High performance batch production of LREBa2Cu3Oy using a novel thin film Nd-123 seeds
23th International Symposium on Superconductivity, November 1-3, 2010 Tsukuba, Japan
[31] ORAL: Low-cost and high performance GdBaCuO melt processed technology
22th International Symposium on Superconductivity, November 2-4, 2009 Tsukuba, Japan
[32] INVITED: Nanoscale Pinning Media in Bulk Melt-Textured High-Tc Superconductors and Their
Importance for Super-Magnet Applications
32nd International Conference & Exposition on Advanced Ceramics & composites, January 27-February 1,

2008 Daytona Beach, Florida, USA
[33] ORAL: Observation of record flux pinning in melt-textured NEG-123 superconductor doped by Nb,
Mo, and Ti nano particles
21th International Symposium on Superconductivity, October 27-29, 2008 Tsukuba, Japan
[34] ORAL: Discovery of novel film formation process using RE-210
SRL annual meeting, November 29, 2007 Tokyo, Japan
[35] ORAL: New Method of Synthesis and Physical Properties of Thick Superconducting Er-123 films
20th International Symposium on Superconductivity, November 5-7, 2007 Tsukuba, Japan
[36] ORAL: Thick REBaCuO Films Planted on Silver Tapes for Power Applications
8th European Conference on Applied Superconductivity, September 16-20, 2007, Brussels, Belgium
[37] ORAL: Current progress in ternary LREBa2Cu3Oy materials and their applications
6th International Workshop on Processing and Application of Superconducting (RE)BCO large grain
materials, September 13–15, 2007, Cambridge, England
[38] ORAL: Potentials of RE-Ba2Cu3Oy in the silver base technology
19th International Symposium on Superconductivity, October 30 - November 1, 2006 Nagoya, Japan
[39] ORAL: Development of new class of RE-123 films on MgO and commercial silver substrate
SRL annual meeting, November 29, 2006, Tokyo, Japan
[40] ORAL: Flux pinning and Orientation control of large-grain LRE-Ba2Cu3Oy with MgO seed
5th International Workshop on Processing and Applied of Superconducting (RE)BCO large grain
materials, October 21-23, 2005, Tokyo, Japan
[41] ORAL: RE-Ba2Cu3Oy formation mechanism via (RE)2BaO4
18th International Symposium on Superconductivity, October 24-26, 2005 Tsukuba, Japan
[42] ORAL: Flux pinning and and orientation control of high performance large grain LREBa2Cu3Oy
7th European Conference on Applied Superconductivity, October 10-17, 2005 Vienna, Austria
[43] INVITED: Analysis of mixed ternary LREBa2Cu3Oy nano structures by STM and TEM
17th International Symposium on Superconductivity, November 23-26, 2004 Nigatha, Japan
[44] ORAL: Development of technology for a reliable fabrication of LRE-123 materials for levitation
applications above 80K
17th International Symposium on Superconductivity, November 23-26, 2004 Nigatha, Japan
[45] ORAL: Magnetic Levitation at 90.3 K and new age of High Tc Superconductivity
24th SRL research presentation, December 9, 2003, Tokyo, Japan
[46] ORAL: Magnetic Levitation in Liquid Oxygen and its Applications
16th International Symposium on Superconductivity, October 27-29, 2003 Tsukuba, Japan
[47] ORAL: High Tc superconducting magnets that function at liquid oxygen temperature
18th International Conference on Magnet Technology, October 20-24, 2003 Morioka, Japan
[48] INVITED: Flux pinning allowing levitation experiments at liquid oxygen temperature
8th IUMRS International Conference on Advanced Materials, October 8-13, 2003 Yokoham, Japan
[49] INVITED: Pinning Centers in NEG-123 active at liquid oxygen temperature (90.2 K)
11th International Workshop on Critical Currents in Superconductors (IWCC11), Nihon University, July
28-31, 2003, Japan
[50] INVITED: Superconducting levitation at 90 K - a base for construction of non-contact liquid oxygen
pumps
4th International Workshop on Processing and Application of Superconducting (RE)BCO large grain
materials, June 30 – July 3, 2003, Jena Germany
[51] ORAL: Superconductors usable upto 15 T at 77 K
15th International Symposium on Superconductivity, November 11-13, 2002 Yokohama, Japan
[52] ORAL: Irreversibility fields above 17 T at 77 K in (Nd,Eu,Gd)Ba2Cu3Oy
Applied Superconductivity Conference, Superconductivity in the Marketplace August 4-9, 2002
Houston, Texas, USA
[53] ORAL: A new technique for Pinning Enhancement in Ternary REBa2Cu3Oy system
14th International Symposium on Superconductivity, September 25-27, 2001 Kobe, Japan

[54] ORAL: Optimization of matrix chemical ration for highest flux pinning in ternary
(Nd,Eu,Gd)Ba2Cu3Oy
3rdInternational Workshop on Processing and Application of Superconducting (RE)BCO large grain
materials, July 11 – 13, 2001, Settle, USA
[55] INVITED: Fabrication of large grain (NEG)Ba2Cu3Oy for high filed applications
International Cryogenic Materials Conference (ICMC) and Cryogenic Engineering Conference (CEC),
July 16-20, 2001, Madison, USA
[56] ORAL: Improved superconducting properties due to Ag2O addition in NEG-123
13th International Symposium on Superconductivity, September 14-16, 2000 Tsukuba, Japan
[57] Flux pinning in OCMG processed (Nd0.33Eu0.33Gd0.33)Ba2Cu3Oy superconductors with
Eu2BaCuO5 addition 2000 International Workshop on Superconductivity, September June 19-22, 2000
Matsue-shi, Shimane, Japan
[58]
[59] ORAL: Microstructure and flux pinning in OCMG-processed (Nd0.33Eu0.33Gd0.33)Ba2Cu3Oy
The 1st Asian Conference on Crystal Growth and Crystal Technology, August 30-September 01, 2000,
Sendai, Japan
[60] INVITED: High Tc Superconductivity
Symposium on International Research Exchange, February 4, 2000, Morioka, Japan
[61] Superconducting properties of (Nd,Eu,Gd)-123
6TH International Conference on Materials and Mechanisms of Superconductivity and High Temperature
Superconductivity, February 20-25, 2000 Houston, Texas, USA.
[62] ORAL: (Nd,Eu,Gd)BaCuO superconductors with combined addition of CeO2 and Pt
2rd International Workshop on Processing and Application of Superconducting (RE)BCO large grain
materials, October 19 – 22, 1999, Morioka, Japan
[63] ORAL: Exploring the ternary superconductors of the type (Nd,Eu,Gd)BaCuO
12th International Symposium on Superconductivity, October 17-19, 1999 Morioka, Japan
[64] INVITED: Microstructure and Pinning in (Nd,Eu,Gd)123 superconductors prepared by the OCMG
process
1999 TMS Annual Meeting & Exhibition “High-Tc Superconductors”, February 28 – 4 March, 1999, San
Diego, California, USA
[65] Microstructure and pinning in high Tc and large Jc (Nd,Eu,Gd)123 superconductors prepared by the
OCMG process
International workshop on vortex physics in high Tc superconductors, May 21-26, 1998 Hachimanthi,
Japan
[66] ORAL: Jc-B performance of melt-processed (Nd,Eu,Gd)BaCuO with Gd2BaCuO5 second phase
11th International Symposium on Superconductivity, November 16-19, 1998 Fukuoka, Japan
[67] ORAL: Effect of (Nd,Eu,Gd)211 and platinum additions on the Jc-B properties of (Nd,Eu,Gd)123
1998 International workshop on superconductivity, July 12-15, 1998, Okinawa, Japan
[68] INVITED: Effect of Gd addition on the Superconducting properties of (Nd,Sm,Eu)123 system
The 4th IUMRS International Conference in Asia, September 16-18, 1998 Makuhari, Chiba, Japan
[69] ORAL: Effect of Y and Gd additions on the Jc-B properties of (Nd-Sm-Eu)123 system
11th International Symposium on Superconductivity, October 27-30, 1997, Gifu, Japan
[70] ORAL: Enhancement in critical current density due to second phase refinement in OCMG
processed (Nd-Eu-Gd)BaCuO system by platinum addition
17th SRL research presentation, July 2-5, 1997, Tokyo, Japan
[71] Growth and superconducting properties of ternary and quaternary 123 superconductors grown by
OCMG process
56th Meeting on cryogenics and superconductivity, May 14-16, 1997, Tsukuba, Japan
[72] Application of oxygen controlled melt growth (OCMG) in ternary RE-123 systems
M2S-HTSC V, February 28 – March 4, 1997 Beijing, China
[73] Development of oxygen controlled melt growth (OCMG) in ternary LREBaCuO systems1996 International workshop on superconductivity, June 24-27, 1996 Hachimantai, Japan