Growth and Characterization of Thin Films of High Performance Microwave Dielectrics
abstract: Microwave dielectrics are widely used to make resonators and filters in telecommunication systems. The production of thin films with high dielectric constant and low loss could potentially enable a marked reduction in the size of devices and systems. However, studies of these materials in...
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ndltd-asu.edu-item-181272018-06-22T03:04:13Z Growth and Characterization of Thin Films of High Performance Microwave Dielectrics abstract: Microwave dielectrics are widely used to make resonators and filters in telecommunication systems. The production of thin films with high dielectric constant and low loss could potentially enable a marked reduction in the size of devices and systems. However, studies of these materials in thin film form are very sparse. In this research, experiments were carried out on practical high-performance dielectrics including ZrTiO4-ZnNb2O6 (ZTZN) and Ba(Co,Zn)1/3Nb2/3O3 (BCZN) with high dielectric constant and low loss tangent. Thin films were deposited by laser ablation on various substrates, with a systematical study of growth conditions like substrate temperature, oxygen pressure and annealing to optimize the film quality, and the compositional, microstructural, optical and electric properties were characterized. The deposited ZTZN films were randomly oriented polycrystalline on Si substrate and textured on MgO substrate with a tetragonal lattice change at elevated temperature. The BCZN films deposited on MgO substrate showed superior film quality relative to that on other substrates, which grow epitaxially with an orientation of (001) // MgO (001) and (100) // MgO (100) when substrate temperature was above 500 oC. In-situ annealing at growth temperature in 200 mTorr oxygen pressure was found to enhance the quality of the films, reducing the peak width of the X-ray Diffraction (XRD) rocking curve to 0.53o and the χmin of channeling Rutherford Backscattering Spectrometry (RBS) to 8.8% when grown at 800oC. Atomic Force Microscopy (AFM) was used to study the topography and found a monotonic decrease in the surface roughness when the growth temperature increased. Optical absorption and transmission measurements were used to determine the energy bandgap and the refractive index respectively. A low-frequency dielectric constant of 34 was measured using a planar interdigital measurement structure. The resistivity of the film is ~3×1010 ohm·cm at room temperature and has an activation energy of thermal activated current of 0.66 eV. Dissertation/Thesis Li, You (Author) Newman, Nathan (Advisor) Alford, Terry (Committee member) Singh, Rakesh (Committee member) Arizona State University (Publisher) Materials Science Physics BCZN microwave dielectric PLD thin film ZTZN eng 64 pages M.S. Materials Science and Engineering 2013 Masters Thesis http://hdl.handle.net/2286/R.I.18127 http://rightsstatements.org/vocab/InC/1.0/ All Rights Reserved 2013 |
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English |
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Dissertation |
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Materials Science Physics BCZN microwave dielectric PLD thin film ZTZN |
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Materials Science Physics BCZN microwave dielectric PLD thin film ZTZN Growth and Characterization of Thin Films of High Performance Microwave Dielectrics |
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abstract: Microwave dielectrics are widely used to make resonators and filters in telecommunication systems. The production of thin films with high dielectric constant and low loss could potentially enable a marked reduction in the size of devices and systems. However, studies of these materials in thin film form are very sparse. In this research, experiments were carried out on practical high-performance dielectrics including ZrTiO4-ZnNb2O6 (ZTZN) and Ba(Co,Zn)1/3Nb2/3O3 (BCZN) with high dielectric constant and low loss tangent. Thin films were deposited by laser ablation on various substrates, with a systematical study of growth conditions like substrate temperature, oxygen pressure and annealing to optimize the film quality, and the compositional, microstructural, optical and electric properties were characterized. The deposited ZTZN films were randomly oriented polycrystalline on Si substrate and textured on MgO substrate with a tetragonal lattice change at elevated temperature. The BCZN films deposited on MgO substrate showed superior film quality relative to that on other substrates, which grow epitaxially with an orientation of (001) // MgO (001) and (100) // MgO (100) when substrate temperature was above 500 oC. In-situ annealing at growth temperature in 200 mTorr oxygen pressure was found to enhance the quality of the films, reducing the peak width of the X-ray Diffraction (XRD) rocking curve to 0.53o and the χmin of channeling Rutherford Backscattering Spectrometry (RBS) to 8.8% when grown at 800oC. Atomic Force Microscopy (AFM) was used to study the topography and found a monotonic decrease in the surface roughness when the growth temperature increased. Optical absorption and transmission measurements were used to determine the energy bandgap and the refractive index respectively. A low-frequency dielectric constant of 34 was measured using a planar interdigital measurement structure. The resistivity of the film is ~3×1010 ohm·cm at room temperature and has an activation energy of thermal activated current of 0.66 eV. === Dissertation/Thesis === M.S. Materials Science and Engineering 2013 |
author2 |
Li, You (Author) |
author_facet |
Li, You (Author) |
title |
Growth and Characterization of Thin Films of High Performance Microwave Dielectrics |
title_short |
Growth and Characterization of Thin Films of High Performance Microwave Dielectrics |
title_full |
Growth and Characterization of Thin Films of High Performance Microwave Dielectrics |
title_fullStr |
Growth and Characterization of Thin Films of High Performance Microwave Dielectrics |
title_full_unstemmed |
Growth and Characterization of Thin Films of High Performance Microwave Dielectrics |
title_sort |
growth and characterization of thin films of high performance microwave dielectrics |
publishDate |
2013 |
url |
http://hdl.handle.net/2286/R.I.18127 |
_version_ |
1718700150186049536 |