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Contributions of DLR’s Microwaves and Radar Institute to the development of Radar during the 20th Century
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Wolfgang Keydel,
Veröffentlicht/Copyright:
1. Juni 2009
Published Online: 2009-06-01
©2011 by Walter de Gruyter GmbH & Co.
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Artikel in diesem Heft
- Editorial
- Contributions of DLR’s Microwaves and Radar Institute to the development of Radar during the 20th Century
- MMICs and Mixed-Signal ICs Based on III/V Technology for Highest Frequencies and Data Rates
- Antenna pattern corrections using a space diversity of the antenna under test (AUT) on top of the turntable
- Beam Position Monitoring in Electron Accelerators
- Optimized Design of a Broadside-Coupled Suspended Stripline Filter
- Millimeter-wave imaging concepts: Synthetic Aperture Radar (SAR) and Digital Beam Forming (DBF)
- Frequency tuning of microwave filter at 60 GHz by laser ablation
- Use of Fiber Nonlinearities for Signal Improvement in Optical Transmission Systems
Artikel in diesem Heft
- Editorial
- Contributions of DLR’s Microwaves and Radar Institute to the development of Radar during the 20th Century
- MMICs and Mixed-Signal ICs Based on III/V Technology for Highest Frequencies and Data Rates
- Antenna pattern corrections using a space diversity of the antenna under test (AUT) on top of the turntable
- Beam Position Monitoring in Electron Accelerators
- Optimized Design of a Broadside-Coupled Suspended Stripline Filter
- Millimeter-wave imaging concepts: Synthetic Aperture Radar (SAR) and Digital Beam Forming (DBF)
- Frequency tuning of microwave filter at 60 GHz by laser ablation
- Use of Fiber Nonlinearities for Signal Improvement in Optical Transmission Systems