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Main Source of Microwave Loss in Transition‐Metal‐Doped Ba(Zn 1/3 Ta 2/3 )O 3 and Ba(Zn 1/3 Nb 2/3 )O 3 at Cryogenic Temperatures
Microwave resonator measurements were performed on high‐performance microwave ceramics Ba(Zn 1/3 Ta 2/3 )O 3 ( BZT ) and Ba(Zn 1/3 Nb 2/3 )O 3 ( BZN ) containing additives commonly used by commercial manufacturers (i.e., Co, Mn, and Ni). We find that the loss tangent, even in ambient magnetic fields...
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Published in: | Journal of the American Ceramic Society 2015-04, Vol.98 (4), p.1188-1194 |
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Main Authors: | , , |
Format: | Article |
Language: | English |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Microwave resonator measurements were performed on high‐performance microwave ceramics Ba(Zn
1/3
Ta
2/3
)O
3
(
BZT
) and Ba(Zn
1/3
Nb
2/3
)O
3
(
BZN
) containing additives commonly used by commercial manufacturers (i.e., Co, Mn, and Ni). We find that the loss tangent, even in ambient magnetic fields, is dominated by electron paramagnetic resonance (
EPR
) absorption by exchange‐coupled 3d electrons in transition metal clusters at cryogenic temperatures. The large orbital angular momentum in Co
2+
and Ni
2+
ions of
L
= 3 causes strong anisotropic‐broadened dipolar interactions that extend
EPR
losses to zero applied field. This effect is greatest in
BZN
with Co concentrations greater than 0.5 mol%, dominating the losses at liquid nitrogen temperatures (77 K) and below. In samples containing Mn
2+
ions with
L
= 0, the dipolar interactions and associated
EPR
losses in ambient fields are smaller. We show the magnetic‐field‐dependent changes in the
EPR
losses (i.e., tan δ) and magnetic reactive response (i.e., μ
r
) are from the same mechanism, as they follow the Kramers–Kronig relation. Finally, we note that these materials can make ultra‐high Q passive microwave devices with externally controlled transfer functions, as the quality factor (
Q
) of the composition Ba(Co
1/15
Zn
4/15
Nb
2/3
)O
3
at 77 K can be tuned from 1 100 to 12 000 at 10 GHz by applying practical magnetic fields. |
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ISSN: | 0002-7820 1551-2916 |
DOI: | 10.1111/jace.13419 |