Alhaj Abbas, Ali; Zhao, Yixiong; Balzer, Jan C.; Solbach, Klaus; Kaiser, Thomas:
Photonic-Crystal-Resonator Based Corner Reflector With Angle-of-Arrival Sensing
In: IEEE Journal of Radio Frequency Identification (RFID), Band 7 (2023), S. 451 - 462
2023Artikel/Aufsatz in ZeitschriftOA Grün
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Damit verbunden: 1 Publikation(en)
Titel in Englisch:
Photonic-Crystal-Resonator Based Corner Reflector With Angle-of-Arrival Sensing
Autor*in:
Alhaj Abbas, AliUDE
LSF ID
59292
ORCID
0000-0003-4664-2124ORCID iD
Sonstiges
der Hochschule zugeordnete*r Autor*in
;Zhao, YixiongUDE
LSF ID
62730
ORCID
0000-0001-9784-2041ORCID iD
Sonstiges
der Hochschule zugeordnete*r Autor*in
;Balzer, Jan C.UDE
GND
143008404
LSF ID
59518
ORCID
0000-0001-9857-0295ORCID iD
Sonstiges
der Hochschule zugeordnete*r Autor*in
;Solbach, KlausUDE
GND
138146225
LSF ID
1301
ORCID
0000-0001-7904-3983ORCID iD
Sonstiges
der Hochschule zugeordnete*r Autor*in
;Kaiser, ThomasUDE
GND
115440674
LSF ID
1858
ORCID
0000-0001-9679-5968ORCID iD
Sonstiges
der Hochschule zugeordnete*r Autor*in
Erscheinungsjahr:
2023
Open Access?:
OA Grün
DOI
10.1109/JRFID.2023.3302009
IEEE ID
10208140
Scopus ID
85166769005
WWW URL:
https://figshare.com/articles/preprint/Photonic-Crystal-Resonator_Based_Corner_Reflector_With_Angle-of-Arrival_Sensing/23216498/1/files/40926806.pdf
Sprache des Textes:
Englisch
Erschienen in
IEEE Journal of Radio Frequency Identification (RFID)
Titel in Englisch (abgekürzt):
IEEE J. Radio Freq. Identif.
Erscheinungsort:
Piscataway
Verlag:
Institute of Electrical and Electronics Engineers (IEEE)
in:
Band 7 (2023), S. 451 - 462
ISSN
2469-7281 Verfügbarkeit online & gedruckt anzeigen
ZDB ID
2867688-9
Schlagwort, Thema:
Angle-of-Arrival sensing ; Bandwidth ; corner reflector ; Encoding ; Mirrors ; one-dimensional photonic crystal resonator ; Optical resonators ; Photonic band gap ; Radar Cross Section (RCS) ; Resonant frequency ; Sensors

Abstract in Englisch:

In this paper, we propose a Photonic Crystal (PhC) resonator based corner reflector for sensing the Angle-of-Arrival (AoA) of the incident wave from an interrogator. The sensor is constructed of joining a flat metal plate with a one-dimensional PhC resonator at an angle of 90∘. The PhC resonator is designed by inserting a defect layer between two quarter-wave Bragg mirrors in order to create a deep notch in the backscattering. While the PhC resonator provides unique spectral signatures in the “specular direction” related to AoA (i.e. by shifting the notch position), the corner configuration allows the back-scattering of these signatures to the direction of the interrogator. As a proof of concept, EM simulation and measurement are performed in W-band on a 40-mm squared PhC resonator perpendicularly joined with a same size metal plate. Based on signatures, a resolution of less than 6∘ can be achieved in the angular range -35∘ to 35∘. Due to the corner configuration that allows a high Radar Cross Section (RCS), the proposed sensor shows the potential of sensing the AoA at long reading ranges.