Complex Permittivity Measurement for Thin Dielectric Rods with High Permittivity Using a 50 GHz Band TM010 Mode Cavity
Author:
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/9661585/9661586/09661810.pdf?arnumber=9661810
Reference11 articles.
1. On the measurement of er and ur by means of the perturbation of cavity resonators;ogasawara;J IEE Japan,1954
2. 3-D Printed Circularly Polarized Modified Fresnel Lens Operating at Terahertz Frequencies
3. PREPERM® 3D ABS DK 7.5;PReMI,2017
4. Complex Permittivity Measurements of Thermoplastic Resin Filaments for a 3D Printer Using a 50GHz Band TM0m0 Mode Cavity Resonator
5. PREPERM® 3D ABS DK 10.0;PReMI,2017
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1. A Novel Parallel-Plate Dielectric Resonator Method for Broadband Complex Permittivity Measurement in the Millimeter-Wave Bands;IEEE Transactions on Microwave Theory and Techniques;2023-06
2. Effective Complex Permittivity Measurement of 3D Printed Artificial Dielectric Substrate Based on a Cross Unit Cell;2022 24th International Microwave and Radar Conference (MIKON);2022-09-12
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