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National High Magnetic Field Laboratory Personnel

Mr. William Denis Markiewicz

Scholar / Scientist
Magnet Science & Technology, Scientific Staff

Email:
Phone:	850 - 644-0996
Fax:	850 - 644-0867
Address:	A233 NHMFL FSU 1800 E. Paul Dirac Dr. Tallahassee , FL 32310-3706

Disclaimer: The information presented below was automatically generated from a database. In the rare instance of an exact name match, it is possible that a citation is inaccurately attributed. The listing should therefore be considered unofficial. To report a mismatched publication, contact IMsystems@magnet.fsu.edu.

Publications and Scientific Activities

##	Peer-Reviewed Publications
1	Hazelton, D.W.; Selvamanickam, V.; Duval, J.M.; Larbalestier, D.C.; Markiewicz, W.D.; Weijers, H.W. and Holtz, R.L., Recent Developments in 2G HTS Coil Technology, IEEE Trans. Appl. Supercond., 19 (3), 2218-2222 (2009)
2	Trociewitz, U.P.; Czabaj, B.; Hong, S.; Huang, Y.; Knoll, D.C.; Larbalestier, D.C.; Markiewicz, W.D.; Miao, H.; Meinesz, M.; Wang, X. and Schwartz, J., Quench studies on a layer-wound Bi₂Sr₂CaCu₂O_x/AgX coil at 4.2 K, Superconductor Science and Technology, 21 (2), 025015 (2008) [read online]
3	Chen, J.; Han, K.; Kalu, P.N. and Markiewicz, W.D., Dispersion Strengthened Nb₃Sn Wire, IEEE Trans. Appl. Supercond., 17 (2), 2584 (2007) [read online]
4	Markiewicz, W.D. and Toth, J., Percolation and the Resistive Transition of the Critical Temperature T_c of Nb₃Sn, Cryogenics, 46, 468-476 (2006)
5	Markiewicz, W.D., Invariant temperature and field strain functions for Nb₃Sn composite superconductors, Cryogenics, 46, 846-863 (2006)
6	Markiewicz, W.D.; Miller, J.R.; Schwartz, J.; Trociewitz, U.P. and Weijers, H.W., Perspective on a Superconducting 30 T/1.3 GHz NMR Spectrometer Magnet, IEEE Trans. Appl. Supercond., 16 (June), 1523-1526 (2006)
7	Painter, T.A.; Markiewicz, W.D.; Miller, J.R.; Bole, S.T.; Dixon, I.R.; Cantrell, K.R.; Kenney, S.J.; Trowel, A.J.; Kim, D.L.; Lee, B.S.; Choi, Y.S.; Kim, H.S.; Hendrickson, C.L. and Marshall, A.G., Requirements and Conceptual Superconducting Magnet Design for a 21 T Fourier Transform Ion Cyclotron Resonance Mass Spectrometer, IEEE Trans. Appl. Supercond., 16 (June), 945-948 (2006)
8	Chen, J.; Han, K.; Kalu, P.N. and Markiewicz, W.D., Deformation behavior of Nb₃Sn type superconductors, IEEE Trans. Appl. Supercond., 15 (2), 3568 - 3571 (2005) [read online]
9	Dixon, I.R.; Markiewicz, W.D.; Brey, W.W. and Shetty, K.K., Performance of the Ultra Wide Bore 900 MHz NMR Magnet at the National High Magnetic Field Laboratory, IEEE Trans. Appl. Supercond., 15 (2), 1334-1337 (2005)
10	Fu, R.; Brey, W.W.; Shetty, K.; Gor'kov, P.; Saha, S.; Long, J.R.; Grant, S.C.; Chekmenev, E.Y.; Hu, J.; Gan, Z.; Sharma, M.; Zhang, F.; Logan, T.M.; Bruschweiler, R.; Edison, A.; Blue, A.; Dixon, I.; Markiewicz, W.D. and Cross, T.A., Ultra-Wide Bore 900 MHz High-Resolution NMR at the National High Magnetic Field Laboratory, J. Magn. Reson., 177, 1-8 (2005) [read online]
11	Markiewicz, W.D., Invariant Strain Analysis of the Critical Temperature Tc of Nb₃Sn, IEEE Trans. Appl. Supercond., 15 (2), 3368-3371 (2005)
12	Dixon, I.R.; Markiewicz, W.D.; Murphy, P. and Painter, T.A., Quench Detection and Protection of the Wide Bore 900 MHz NMR Magnet at the NHMFL, IEEE Trans. Appl. Supercond., 14 (2), 1260-1263 (2004)
13	Markiewicz, W.D., Invariant Formulation of the Strain Dependence or the Critical Temperature Tc of Nb₃Sn in a Three Term Approximation, Cryogenics, 44 (11), 895-908 (2004)
14	Markiewicz, W.D., Elastic stiffness model for the critical temperature Tc of Nb₃Sn including strain dependence, Cryogenics, 44 (11), 767-782 (2004)
15	Markiewicz, W.D.; Dixon, I.R. and Painter, T.A., Stability Design and Performance of a 900 MHz Wide Bore Magnet, Adv. Cryog. Eng. Materials, 50B, 921-928 (2004)
16	Painter, T.A.; Dixon, I.R. and Markiewicz, W.D., Voltage Spike and Magnet Quench Behavior in the NHMFL 900 MHz Bucket Test, IEEE Trans. Appl. Supercond., 14 (2), 1613-1616 (2004)
17	Markiewicz, W., Current Injection for Field Decay Compensation in NMR Spectrometer Magnets, IEEE Trans. Appl. Supercond., 12 (4), 1886-1890 (2002)
18	Markiewicz, W.D. and Goddard, R.E., Bronze tin content and grain size in Nb₃Sn composite superconductors, IEEE Trans. Appl. Supercond., 12 (1), 1063-1066 (2002)
19	Dixon, I.R. and Markiewicz, W.D., Protection Heater Performance of Nb₃Sn Epoxy Impregnated Superconducting Solenoids, IEEE Trans. Appl. Supercond., 11 (1), 2583-2586 (2001)
20	Dixon, I.R.; Markiewicz, W.D. and Marshall, W.S., Axial Mechanical Properties of Epoxy Impregnated Superconducting Solenoids at 4.2 K, IEEE Trans. Appl. Supercond., 10 (1), 1313-1316 (2000)
21	Markiewicz, W.D.; Dixon, I.R.; Marshall, W.S. and Walsh, R.P., Epoxy Lead Cones For Free Supported Leads, IEEE Trans. Appl. Supercond., 10 (1), 1321-1324 (2000)
22	Markiewicz, W.D.; Dixon, I.R.; Swenson, C.A.; Marshall, W.S.; Painter, T.A.; Bole, S.T.; Cosmus, T.; Parizh, M.; King, M. and Ciancetta, G., 900 MHz Wide Bore NMR Spectrometer Magnet at NHMFL, IEEE Trans. Appl. Supercond., 10 (1), 728-731 (2000)
23	Markiewicz, W.D.; Schwartz, J. and Schneider-Muntau, H.J., The Approach to 1 GHz Plus High Resolution NMR, IEEE Trans. Appl. Supercond., 10 (1), 724-727 (2000)
24	Swenson, C.A. and Markiewicz, W.D., Magnetic Characterization of Austenitic Stainless Steel for Nuclear Magnetic Resonance Coils, IEEE Trans. Appl. Supercond., 10 (1), 736-739 (2000)
25	Dixon, I.R. and Markiewicz, W.D., Critical Current and n-Value of Nb₃Sn Conductors for the Wide Bore 900 MHz NMR Magnet, IEEE Trans. on Applied Superconductivity, 9 (2), 2513-2510 (1999)
26	Markiewicz, W.D.; Vaghar, M.R.; Dixon, I.R. and Garmestani, H., Generalized Plane Strain Analysis of Solenoid Solenoids, J. Appl. Phys., 86 (12), 7039-7051 (1999)
27	Swenson, C.A;, Dixon, I.R.; and Markiewicz, W.D., Measurement of Thermal Contraction Properties for NbTi and Nb3Sn Composites, IEEE Trans. on Applied Superconductivity, 7 (2), 408-411 (1997)
28	Dixon, I.R.; Walsh, R.P. and Markiewicz, W.D., Mechanical Properties of Epoxy Impregnated Superconducting Solenoids, IEEE Trans. on Magnetics, 32 (4), 2917-2920 (1996)
29	Markiewicz, W.D.; Bonney, L.A.; Dixon, I.R.; Eyssa, Y.M.; Swenson, C.A.; and Schneider-Muntau, H.J., Technology of 1 GHz NMR Superconductor Magnets, Physica B, 216, 200-202 (1996)

##	Presentations, Posters & Abstracts
1	Markiewicz, W.D.; Weijers, H.J.; Noyes, P.D.; Trociewitz, U.P.; Pickard, K.P.; Sheppard, W.R.; Jaroszynski, J.J.; Xu, A.; Larbalestier, D.C. and Hazelton, D.W., 33.8 Tesla with a YBa₂Cu₃O_7-x Superconducting Test Coil, Cryogenic Engineering and Int. Cryogenic Materials Conf., Tucson, AZ, June 28-July 02 (2009)
2	Weijers, H.W.; Lu, J.; Trociewitz, U.P.; Walsh, R.P. and Markiewicz, W.D., Electro-mechanical characterization of HTS and LTS conductors at the NHMFL, Superconductivity Research Center, Korea Electrotechnology Research Institute (KERI), Changwon, Korea, July 15 (2009) [read online]
3	Weijers, H.W.; Markiewicz, W.D.; Pickard, K.W.; Noyes, P.D.; Trociewitz, U.P.; Jiang, J. and Larbalestier, D., Tests of HTS Insert Coils above 30T, Int. Symposium on Superconductivity (ISS-2008), Tsukuba, Japan, October 27-29 (2008) [read online]
4	Markiewicz, W.D., Comparison of strain scaling functions for the strain dependence of composite Nb₃Sn superconductors, MEM'07, Princeton, NJ, August 21-24 (2007)
5	Markiewicz, W.D., YBCO Coated Conductor Requirements for High Field Magnet Applications, Low Temperature Superconductor Workshop, South Lake Tahoe, CA, October 29-31 (2007)
6	Markiewicz, W.D., Quench Protection of HTS Coils in the Limit of Zero Quench Propagation Velocity, MT-20, Philadelphia, PA, August 21-24 (2007)
7	Chen, J.; Han, K.; Kalu, P.N. and Markiewicz, W.D., Alumina Particle-reinforced Nb₃Sn Wire, Seattle, WA, August 27-September 1 (2006)
8	Markiewicz, W.D., Strain Dependence of the Critical Temperature Tc of Polycrystalline Nb₃Sn Superconductors, Applied Superconductivity Conf., Seattle, WA, August 27-September 1 (2006)
9	Trociewitz, U.P.; Wang, X.; Sastry, P.V.P.S.S.; Knoll, D.C.; Breschi, M.; Markiewicz, W.D. and Schwartz, J., Quench experiments on short HTS conductor samples, CHATS 06 Applied Superconductivity Workshop, Berkeley, CA, September 5-7 (2006)
10	Markiewicz, W.D.; Miller, J.R.; Schwartz, J.; Trociewitz, U.P. and Weijers, H.W., Perspective on a Superconducting 30 T/ 1.3 GHz NMR Spectrometer Magnet, MT19, Genova, Italy, September 19-23 (2005)
11	Trociewitz, U.P.; Markiewicz, W.D.; Weijers, H.W. and Schwartz, J., Bi2212 for High Field Magnets, 12th US-Japan Workshop on High Performance Superconductors, Delauan, WI, October 9-12 (2005)
12	Markiewicz, W.D., Invariant Strain Analysis of the Critical Temperature Tc of Nb₃Sn, Applied Superconductivity Conf., Jacksonville, FL, October 3-8 (2004)
13	Shetty, K.K.; Dixon, I.R.; Markiewicz, W.D. and Brey, W.W., Test of Current Injection Drift Compensation in a 900 MHz NMR Magnet, ISMAR, Ponte Vedre, FL, October 24-28 (2004)
14	Brey, W.W.; Dixon, I.R. and Markiewicz, W.D., NMR Map and Drift Measurements of the NHMFL 900 WB Magnet, 44th Experimental NMR Conf., Savannah, GA, March 30 – April 4 (2003)
15	Dixon, I.R.; Markiewicz, W.D.; Murphy, P. and Painter, T.A., Quench Detection and Protection System of the Wide Bore 900 MHz NMR Magnet at the NHMFL, 18th Int. Conf. on Magnet Technology, Morioka, Japan, October 20-24 (2003)
16	Markiewicz, W.D.; Dixon, I.R. and Painter, T.A., Stability Design and Performance of a 900 MHz Wide Bore Magnet, CEC/ICMC 2003, Anchorage, AK, September 22-26 (2003)
17	Painter, T.A.; Dixon, I.R., and Markiewicz, W.D., Voltage Spike and Magnet Quench Behavior in the NHMFL 900 MHz Bucket Test, 18th Int. Conf. on Magnet Technology, Morika, Japan, October 20-24 (2003)
18	Markiewicz, W.D. and Goddard, R.E., Bronze Tin Content and Grain Size in Nb₃Sn Composite Superconductors, 17th International Conference on Magnet Technology, Geneva, Switzerland, September 24-28 (2001)
19	Markiewicz, W.D., The NHMFL 900 MHz Program and Beyond, 2001 Southeastern Magnetic Resonance Conference, McKnight Brain Institute, University of Florida, Gainesville, October 26 - 28 (2001)
20	Painter, T.A.; Dixon, I.; Swenson, C.; Marshall, S.; Markiewicz, D.; Brey, W.W.; Cross, T. and Ferner, J., Wide Bore 900 MHz NMR System Fabrication and Testing, 42nd Experimental NMR Conference, Orlando, FL, March 11-16 (2001)
21	Dixon, I.R. and Markiewicz, W.D., Protection Heater Performance of Nb3Sn Epoxy Impregnated Superconducting Solenoids, Applied Superconductivity Conference 2000, Virginia Beach, VA, September 17-23 (2000)
22	Van Sciver, S.W.; Hascicek, Y.; Markiewicz, W.D.; Schwartz, J. and Schneider-Muntau, H.J., High Field HTS Magnet Technology and Applications, ICCR '98, Hangzhou, China, April 21-24 (1998)
23	Welton, S.J.; Cantrell, K.; Markiewicz, W.D. and Van Sciver, S.W., Design of the NHMFL 900 MHz NMR Magnet Cryostat, Proceedings of the ICEC 17, Bournmouth, UK, July 12-15 (1998)

##	Patents & Other Products
1	Markiewicz, D., "Dipole shim coil for external field adjustment of a shielded superconducting magnet", US Patent 7,135,948, dated 11/14/2006. (2006)
2	Markiewicz, D.; Dixon, I.; Swenson, C.; Marshall, S.; Walsh, R.; Painter, T. and Van Sciver, S.W., "Wide Bore High Field Magnet", U.S. Patent No. 7,015779, dated 3/21/2006 (2006)
3	Markiewicz, W.D.; Dixon, I.R.; Swenson, C.A.; Marshall, W.S.; Walsh, R.P.; Painter, T.A. and Van Sciver, S., "Method of manufacturing a superconducting magnet", U.S. Patent No. 6,735,848 B1 Awarded May 18, 2004 (2004)

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