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Scaling Energy-Resolving Microwave Kinetic Inductance Detector Readout.
Scaling Energy-Resolving Microwave Kinetic Inductance Detector Readout.
상세정보
- 자료유형
- 학위논문
- Control Number
- 0017162509
- International Standard Book Number
- 9798384037996
- Dewey Decimal Classification Number
- 530
- Main Entry-Personal Name
- Smith, Jennifer Pearl.
- Publication, Distribution, etc. (Imprint
- [S.l.] : University of California, Santa Barbara., 2024
- Publication, Distribution, etc. (Imprint
- Ann Arbor : ProQuest Dissertations & Theses, 2024
- Physical Description
- 173 p.
- General Note
- Source: Dissertations Abstracts International, Volume: 86-03, Section: B.
- General Note
- Advisor: Mazin, Benjamin A.
- Dissertation Note
- Thesis (Ph.D.)--University of California, Santa Barbara, 2024.
- Summary, Etc.
- 요약Superconducting detectors are well-suited to serve as wide field-of-view, energy resolving, single-photon-counting cameras for ground and space-based instruments. These cameras have a wide range of sensitive imaging applications in biology, astronomy, particle physics, cosmology, and quantum information. However, science results have been delayed by challenges in scaling superconducting detectors into large arrays with sufficient pixel resolution to create sharp images. Superconducting Microwave Kinetic Inductance Detectors (MKIDs) are promising detectors for these applications because they are inherently multiplexable, providing a feasible way to create large-format arrays. In this thesis, I present two major improvements made in scaling MKID array technology inside and outside the cryogenic system. First, I discuss a new RFSoC-based digital readout that provides a dramatic reduction in the weight, volume, and power of the room temperature electronics. This compact digital readout enables scaling to megapixel array formats and increases the feasibility of future space-based deployment. Next, I share a new superconducting coaxial ribbon cable that improves readout signal integrity inside the cryogenic system and reduces cryogenic heat load while supporting a dense wiring format. In addition to furthering MKID technologies, these systems may support scaling of other superconducting detector or qubit systems in the near future.
- Subject Added Entry-Topical Term
- Physics.
- Subject Added Entry-Topical Term
- Astrophysics.
- Subject Added Entry-Topical Term
- Electrical engineering.
- Subject Added Entry-Topical Term
- Condensed matter physics.
- Subject Added Entry-Topical Term
- Computational physics.
- Index Term-Uncontrolled
- FPGA
- Index Term-Uncontrolled
- High-density wiring
- Index Term-Uncontrolled
- Microwave Kinetic Inductance Detector
- Index Term-Uncontrolled
- RFSoC
- Index Term-Uncontrolled
- Space-based deployment
- Index Term-Uncontrolled
- Qubit systems
- Added Entry-Corporate Name
- University of California, Santa Barbara Physics
- Host Item Entry
- Dissertations Abstracts International. 86-03B.
- Electronic Location and Access
- 로그인을 한후 보실 수 있는 자료입니다.
- Control Number
- joongbu:653947
MARC
008250224s2024 us ||||||||||||||c||eng d■001000017162509
■00520250211152021
■006m o d
■007cr#unu||||||||
■020 ▼a9798384037996
■035 ▼a(MiAaPQ)AAI31332228
■040 ▼aMiAaPQ▼cMiAaPQ
■0820 ▼a530
■1001 ▼aSmith, Jennifer Pearl.
■24510▼aScaling Energy-Resolving Microwave Kinetic Inductance Detector Readout.
■260 ▼a[S.l.]▼bUniversity of California, Santa Barbara. ▼c2024
■260 1▼aAnn Arbor▼bProQuest Dissertations & Theses▼c2024
■300 ▼a173 p.
■500 ▼aSource: Dissertations Abstracts International, Volume: 86-03, Section: B.
■500 ▼aAdvisor: Mazin, Benjamin A.
■5021 ▼aThesis (Ph.D.)--University of California, Santa Barbara, 2024.
■520 ▼aSuperconducting detectors are well-suited to serve as wide field-of-view, energy resolving, single-photon-counting cameras for ground and space-based instruments. These cameras have a wide range of sensitive imaging applications in biology, astronomy, particle physics, cosmology, and quantum information. However, science results have been delayed by challenges in scaling superconducting detectors into large arrays with sufficient pixel resolution to create sharp images. Superconducting Microwave Kinetic Inductance Detectors (MKIDs) are promising detectors for these applications because they are inherently multiplexable, providing a feasible way to create large-format arrays. In this thesis, I present two major improvements made in scaling MKID array technology inside and outside the cryogenic system. First, I discuss a new RFSoC-based digital readout that provides a dramatic reduction in the weight, volume, and power of the room temperature electronics. This compact digital readout enables scaling to megapixel array formats and increases the feasibility of future space-based deployment. Next, I share a new superconducting coaxial ribbon cable that improves readout signal integrity inside the cryogenic system and reduces cryogenic heat load while supporting a dense wiring format. In addition to furthering MKID technologies, these systems may support scaling of other superconducting detector or qubit systems in the near future.
■590 ▼aSchool code: 0035.
■650 4▼aPhysics.
■650 4▼aAstrophysics.
■650 4▼aElectrical engineering.
■650 4▼aCondensed matter physics.
■650 4▼aComputational physics.
■653 ▼aFPGA
■653 ▼aHigh-density wiring
■653 ▼aMicrowave Kinetic Inductance Detector
■653 ▼aRFSoC
■653 ▼aSpace-based deployment
■653 ▼aQubit systems
■690 ▼a0605
■690 ▼a0596
■690 ▼a0544
■690 ▼a0611
■690 ▼a0216
■71020▼aUniversity of California, Santa Barbara▼bPhysics.
■7730 ▼tDissertations Abstracts International▼g86-03B.
■790 ▼a0035
■791 ▼aPh.D.
■792 ▼a2024
■793 ▼aEnglish
■85640▼uhttp://www.riss.kr/pdu/ddodLink.do?id=T17162509▼nKERIS▼z이 자료의 원문은 한국교육학술정보원에서 제공합니다.
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