Complex permittivity and complex permeability characteristics of Co-Ti
doped barium strontium hexaferrite/paraffin wax composites for
application in microwave devices
The microwave characteristics of composites prepared from
Ba0.5Sr0.5CoxTixFe(12-2x)O19/paraffin wax with 10% and 20% volume
fraction of ferrite powder in wax have been examined in the test
frequency range of 0.13-4 GHz. The purpose was to determine an optimum
composition that could be used in the design of microwave devices for
low loss wireless communication. The effect of volume fraction, doping,
and thickness on dielectric, magnetic, conductivity, and reflection loss
characteristics was explored to ascertain microwave low
loss/unattenuated transmission. The results reveal that the dielectric
and magnetic properties can be tuned by Co(2+)and Ti(4+)ion doping and
the percentage volume fraction ratio of the ferrite in the ferrite/wax
composite. The height of reflection loss dips increased with thickness
and they narrowed for higher doping with Co(2+)and Ti(4+)ions. All
compositions render 98.8% unattenuated transmission of the microwave
signal encompassing the majority of the investigated frequency regime. Compositionx = 0.6 has the maximum reflection loss of - 0.35 x 10(-3) dB
at 0.15 GHz. The obtained results for these compositions could be
considered for designing microwave devices for low loss wireless
communication with 0.05 dB bandwidth of 3 GHz in the explored microwave
range.
%0 Journal Article
%1 WOS:000582461900001
%A Singh, Charanjeet
%A Nikolic, Maria Vesna
%A Narang, Sukhleen Bindra
%A Sombra, A S B
%A Zhou, Di
%A Trukhanov, Sergei
%A Panina, Larrisa
%A Singh, Jasbir
%A Trukhanov, Alex
%C TIERGARTENSTRASSE 17, D-69121 HEIDELBERG, GERMANY
%D 2020
%I SPRINGER HEIDELBERG
%J APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING
%K Complex Reflection composites; loss} permeability; permittivity; {Ferrite
%N 11
%R 10.1007/s00339-020-04016-0
%T Complex permittivity and complex permeability characteristics of Co-Ti
doped barium strontium hexaferrite/paraffin wax composites for
application in microwave devices
%V 126
%X The microwave characteristics of composites prepared from
Ba0.5Sr0.5CoxTixFe(12-2x)O19/paraffin wax with 10% and 20% volume
fraction of ferrite powder in wax have been examined in the test
frequency range of 0.13-4 GHz. The purpose was to determine an optimum
composition that could be used in the design of microwave devices for
low loss wireless communication. The effect of volume fraction, doping,
and thickness on dielectric, magnetic, conductivity, and reflection loss
characteristics was explored to ascertain microwave low
loss/unattenuated transmission. The results reveal that the dielectric
and magnetic properties can be tuned by Co(2+)and Ti(4+)ion doping and
the percentage volume fraction ratio of the ferrite in the ferrite/wax
composite. The height of reflection loss dips increased with thickness
and they narrowed for higher doping with Co(2+)and Ti(4+)ions. All
compositions render 98.8% unattenuated transmission of the microwave
signal encompassing the majority of the investigated frequency regime. Compositionx = 0.6 has the maximum reflection loss of - 0.35 x 10(-3) dB
at 0.15 GHz. The obtained results for these compositions could be
considered for designing microwave devices for low loss wireless
communication with 0.05 dB bandwidth of 3 GHz in the explored microwave
range.
@article{WOS:000582461900001,
abstract = {The microwave characteristics of composites prepared from
Ba0.5Sr0.5CoxTixFe(12-2x)O19/paraffin wax with 10% and 20% volume
fraction of ferrite powder in wax have been examined in the test
frequency range of 0.13-4 GHz. The purpose was to determine an optimum
composition that could be used in the design of microwave devices for
low loss wireless communication. The effect of volume fraction, doping,
and thickness on dielectric, magnetic, conductivity, and reflection loss
characteristics was explored to ascertain microwave low
loss/unattenuated transmission. The results reveal that the dielectric
and magnetic properties can be tuned by Co(2+)and Ti(4+)ion doping and
the percentage volume fraction ratio of the ferrite in the ferrite/wax
composite. The height of reflection loss dips increased with thickness
and they narrowed for higher doping with Co(2+)and Ti(4+)ions. All
compositions render 98.8% unattenuated transmission of the microwave
signal encompassing the majority of the investigated frequency regime. Compositionx = 0.6 has the maximum reflection loss of - 0.35 x 10(-3) dB
at 0.15 GHz. The obtained results for these compositions could be
considered for designing microwave devices for low loss wireless
communication with 0.05 dB bandwidth of 3 GHz in the explored microwave
range.},
added-at = {2022-05-23T20:00:14.000+0200},
address = {TIERGARTENSTRASSE 17, D-69121 HEIDELBERG, GERMANY},
author = {Singh, Charanjeet and Nikolic, Maria Vesna and Narang, Sukhleen Bindra and Sombra, A S B and Zhou, Di and Trukhanov, Sergei and Panina, Larrisa and Singh, Jasbir and Trukhanov, Alex},
biburl = {https://www.bibsonomy.org/bibtex/278bf952a6964eb80df1f9a7a8057653e/ppgfis_ufc_br},
doi = {10.1007/s00339-020-04016-0},
interhash = {edd6fb5b19a9935dca8715cb194f7f49},
intrahash = {78bf952a6964eb80df1f9a7a8057653e},
issn = {0947-8396},
journal = {APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING},
keywords = {Complex Reflection composites; loss} permeability; permittivity; {Ferrite},
number = 11,
publisher = {SPRINGER HEIDELBERG},
pubstate = {published},
timestamp = {2022-05-23T20:00:14.000+0200},
title = {Complex permittivity and complex permeability characteristics of Co-Ti
doped barium strontium hexaferrite/paraffin wax composites for
application in microwave devices},
tppubtype = {article},
volume = 126,
year = 2020
}