Thin film Tl-based HTS microwave devices
Linear microstrip resonators suffer from high peak current density inside the resonators which limit the power handling characteristics. To realise higher power filters for cellular applications it is possible to use two dimensional microstrip resonators (such as disks) to equalise the internal curr...
| Main Authors: | , , , , |
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| Format: | Conference item |
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1998
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| _version_ | 1826286698358636544 |
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| author | Jenkins, A Bramley, A Edwards, D Dew-Hughes, D Grovenor, C |
| author_facet | Jenkins, A Bramley, A Edwards, D Dew-Hughes, D Grovenor, C |
| author_sort | Jenkins, A |
| collection | OXFORD |
| description | Linear microstrip resonators suffer from high peak current density inside the resonators which limit the power handling characteristics. To realise higher power filters for cellular applications it is possible to use two dimensional microstrip resonators (such as disks) to equalise the internal current distribution. We have designed and tested such microstrip resonators, fabricated from TBCCO 2212 thin films deposited by RF sputtering onto 10x10mm and 20x20mm LaAlO3 substrates. The R-s of such Alms has been measured at 24 GHz using a sapphire dielectric resonator and shown to be less than 500 mu Omega scaled to 10 GHz and at 80K. Q values of 3-12 GHz disk resonators have demonstrated considerable improvements when compared to both linear HTS microstrip resonators and comparable copper disk resonators. Additionally, the power handling of such resonators has been shown to be superior to that of conventional linear resonators fabricated from similar material. |
| first_indexed | 2024-03-07T01:47:36Z |
| format | Conference item |
| id | oxford-uuid:98f50f5f-0f71-429f-8d99-5b78fe11a289 |
| institution | University of Oxford |
| last_indexed | 2024-03-07T01:47:36Z |
| publishDate | 1998 |
| record_format | dspace |
| spelling | oxford-uuid:98f50f5f-0f71-429f-8d99-5b78fe11a2892022-03-27T00:10:46ZThin film Tl-based HTS microwave devicesConference itemhttp://purl.org/coar/resource_type/c_5794uuid:98f50f5f-0f71-429f-8d99-5b78fe11a289Symplectic Elements at Oxford1998Jenkins, ABramley, AEdwards, DDew-Hughes, DGrovenor, CLinear microstrip resonators suffer from high peak current density inside the resonators which limit the power handling characteristics. To realise higher power filters for cellular applications it is possible to use two dimensional microstrip resonators (such as disks) to equalise the internal current distribution. We have designed and tested such microstrip resonators, fabricated from TBCCO 2212 thin films deposited by RF sputtering onto 10x10mm and 20x20mm LaAlO3 substrates. The R-s of such Alms has been measured at 24 GHz using a sapphire dielectric resonator and shown to be less than 500 mu Omega scaled to 10 GHz and at 80K. Q values of 3-12 GHz disk resonators have demonstrated considerable improvements when compared to both linear HTS microstrip resonators and comparable copper disk resonators. Additionally, the power handling of such resonators has been shown to be superior to that of conventional linear resonators fabricated from similar material. |
| spellingShingle | Jenkins, A Bramley, A Edwards, D Dew-Hughes, D Grovenor, C Thin film Tl-based HTS microwave devices |
| title | Thin film Tl-based HTS microwave devices |
| title_full | Thin film Tl-based HTS microwave devices |
| title_fullStr | Thin film Tl-based HTS microwave devices |
| title_full_unstemmed | Thin film Tl-based HTS microwave devices |
| title_short | Thin film Tl-based HTS microwave devices |
| title_sort | thin film tl based hts microwave devices |
| work_keys_str_mv | AT jenkinsa thinfilmtlbasedhtsmicrowavedevices AT bramleya thinfilmtlbasedhtsmicrowavedevices AT edwardsd thinfilmtlbasedhtsmicrowavedevices AT dewhughesd thinfilmtlbasedhtsmicrowavedevices AT grovenorc thinfilmtlbasedhtsmicrowavedevices |