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Bücher Englische Bücher Wissen & Bildung Naturwissenschaft, Medizin, Informatik, Technik Physik & Astronomie Astronomie Development of RAC devices fabricated using e-beam lithography for Chirp Transform Spectrometers
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Development of RAC devices fabricated using e-beam lithography for Chirp Transform Spectrometers
Xianyi Li (Unbekannter Einband, Englisch)
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Beschreibung
Based on surface acoustic waves (SAW), the reflective array compressor (RAC) is a high performance device widely used in modern radars. This thesis deals with another important application of RACs – the Chirp Transform Spectrometer (CTS). The performances of the CTS, such as input bandwidth and frequency resolution, are mainly determined by the performance of the RAC filter used in it. Thus, the… development of a large time bandwidth product RAC filter is essential for CTS technology in microwave atmospheric remote sensing for radio astronomy.
This dissertation focuses on the design, modeling and development of the surface acoustic wave RAC type chirp filters using standard electron beam lithography (EBL) technology. Utilizing groove duty cycle weighting technique, two types of large time bandwidth product RAC filters with good performances were developed (one with BT = 4000 and the other with BT = 8000). Three other types of RAC filters with equal or higher time bandwidth products (BT = 7000, 12 000 and 16 000) were simulated. The maximum achievable time bandwidth product of RAC type filters was estimated to be about 16 000 for YZLiNbO3. Experiments were also performed for phase deviation compensations using 50 nm Al stripes between the two arrays of reflectors. The practical phase compensation coefficient was derived using the measurement results. Dieses Produkt haben wir gerade leider nicht auf Lager.
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Technische Daten
Erscheinungsdatum
03.01.2011
Sprache
Englisch
EAN
9783942171380
Herausgeber
Uni-Edition
Sonderedition
Nein
Autor
Xianyi Li
Seitenanzahl
168
Auflage
1
Einbandart
Unbekannter Einband
Schlagwörter
e-beam lithography, FEM/BEM simulation, radio astronomy, Max-Planck-Institute, astronomy
Höhe
210 mm
Breite
14.8 cm
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