Temperature dependent microwave dielectric constant of TTF-TCNQ and related one-dimensional conductors

Through DFT calculations, a Be0.25Mg0.75O superlattice having long apical Be–O bond length is proposed to have a high bandgap (>7.3 eV) and high dielectric constant (∼18) at room temperature and above.

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Imaginary Eigenvalues in Multilayer One-Dimensional Thermal Conduction Problem with Linear Temperature-Dependent Heat Generation

International Journal of Heat and Mass Transfer ◽

10.1016/j.ijheatmasstransfer.2021.120993 ◽

2021 ◽

Vol 170 ◽

pp. 120993

Author(s):

Ankur Jain ◽

Mohammad Parhizi ◽

Long Zhou ◽

Girish Krishnan

Keyword(s):

Heat Generation ◽

Thermal Conduction ◽

Temperature Dependent ◽

Linear Temperature ◽

One Dimensional

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Microstructure and Microwave Dielectric Properties of BaTi4O9 Ceramics Derived from a Sol-Gel Precursor

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.326.127 ◽

2011 ◽

Vol 326 ◽

pp. 127-130

Author(s):

Xian Li Huang ◽

Fu Ping Wang ◽

Ying Song

Keyword(s):

Dielectric Constant ◽

Dielectric Properties ◽

Dielectric Loss ◽

Sol Gel ◽

Microwave Dielectric Properties ◽

Sintering Process ◽

Temperature Coefficients ◽

Microwave Dielectric ◽

Ceramic Samples ◽

Quality Factor Q

In the present work, the microstructure and microwave dielectric properties of BaTi4O9 ceramics derived from a sol-gel precursor were presented. Density measuring results demonstrated that the largest densities of ceramic sample about 96.7% could be reached by virtue of a cool iso-static press and a sintering process at at 1300 °C for 6 hours. The dielectric constant (εr), quality factor (Q×f) and the temperature coefficients (τf) of the BaTi4O9 ceramic samples were 36.65, 28000 GHz, +20.2 ppm/°C, respectively. XRD, SEM and XPS were used to characterize the microstructure of the ceramics samples. Substantial Ti3+ was proposed to be the cause of dielectric loss.

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Temperature-dependent conductance of quasi-one-dimensional electrons in a novel constricted channel with corrugated interfaces

Physica E Low-dimensional Systems and Nanostructures ◽

10.1016/j.physe.2005.12.061 ◽

2006 ◽

Vol 32 (1-2) ◽

pp. 337-340

Author(s):

Y. Akiyama ◽

T. Kawazu ◽

S. Ishida ◽

Y. Arakawa ◽

H. Sakaki

Keyword(s):

Temperature Dependent ◽

One Dimensional ◽

Constricted Channel

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Theory of ultrasonic attenuation in one and two dimensional metals

Canadian Journal of Physics ◽

10.1139/p76-172 ◽

1976 ◽

Vol 54 (14) ◽

pp. 1454-1460 ◽

Cited By ~ 3

Author(s):

T. Tiedje ◽

R. R. Haering

Keyword(s):

Ultrasonic Attenuation ◽

Three Dimensional ◽

Electronic Systems ◽

Two Dimensional ◽

Temperature Dependent ◽

One Dimensional ◽

The Difference

The theory of ultrasonic attenuation in metals is extended so that it applies to quasi one and two dimensional electronic systems. It is shown that the attenuation in such systems differs significantly from the well-known results for three dimensional systems. The difference is particularly marked for one dimensional systems, for which the attenuation is shown to be strongly temperature dependent.

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Effect of Sintering Behavior on Microwave Properties of (Ca0.8Sr0.2)ZrO3 Ceramics for Resonators

Materials Science Forum ◽

10.4028/www.scientific.net/msf.787.338 ◽

2014 ◽

Vol 787 ◽

pp. 338-341

Author(s):

Cheng Hsing Hsu ◽

Chia Hao Chang ◽

Wen Shiush Chen ◽

Jenn Sen Lin ◽

Chun Hung Lai

Keyword(s):

Dielectric Constant ◽

Sintering Temperature ◽

Microwave Dielectric Properties ◽

Sintering Behavior ◽

Passive Components ◽

Suitable Candidate ◽

Solid State Route ◽

Microwave Dielectric ◽

Microwave Ceramic ◽

Conventional Solid State Route

Microwave dielectric properties and microstructures of (Ca0.8Sr0.2)ZrO3 ceramics prepared by the conventional solid-state route have been studied. The values of the dielectric constant (εr) were 22-26. The Q×f values of 10400–11500 GHz were obtained when the sintering temperatures were in the range of 1400–1490°C. The temperature coefficient of the resonant frequency τf was not sensitive to the sintering temperature. The εr value of 26, the Q×f value of 11500 GHz, and the τf value of-9 ppm/°C were obtained for (Ca0.8Sr0.2)ZrO3 ceramics sintering at 1490°C. The ceramic, (Ca0.8Sr0.2)ZrO3 is proposed as a suitable candidate material for application in highly selective microwave ceramic passive components.

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