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Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs
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U. K. Ozturk Et Al. , "Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs," IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY , pp.1-7, 2023

Ozturk, U. K. Et Al. 2023. Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY , 1-7.

Ozturk, U. K., Abdioglu, M., & Mollahasanoğlu, H., (2023). Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY , 1-7.

Ozturk, U., Murat Abdioglu, And HAKKI MOLLAHASANOĞLU. "Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs," IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY , 1-7, 2023

Ozturk, U. K. Et Al. "Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs." IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY , pp.1-7, 2023

Ozturk, U. K. Abdioglu, M. And Mollahasanoğlu, H. (2023) . "Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs." IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY , pp.1-7.

@article{article, author={U. Kemal Ozturk Et Al. }, title={Magnetic Force Performance of Hybrid Multi-Surface HTS Maglev System with Auxiliary Onboard PMs}, journal={IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY}, year=2023, pages={1-7} }