ANALYSIS OF RADAR SIGNAL ABSORBER RESPONSE FE3O4 AND CO3O4 IN THE X-BAND FREQUENCY RANGE USING VECTOR NETWORK ANALYZER (VNA)
ANALISIS RESPONS PENYERAP SINYAL RADAR FE3O4 DAN CO3O4 PADA RENTANG FREKUENSI X BAND MELALUI PEMANTAUAN VECTOR NETWORK ANALYZER (VNA)
DOI:
https://doi.org/10.21009/03.1301.FA04Abstract
This study aims to analyze the capability of Fe3O4 and Co3O4 as radar signal absorber materials using a Vector Network Analyzer (VNA) in the X-Band frequency range. The main objectives are to characterize the radar-absorbing materials Fe3O4 and Co3O4 in the X-Band frequency range, evaluate the effectiveness of these radar-absorbing materials, and explore practical applications in the development of radar absorption systems. Through the analysis of the absorption response of these two materials, the study seeks to understand how effectively Fe3O4 and Co3O4 can absorb radar signals in the X-Band frequency range and to gain a deeper understanding of their performance characteristics, such as absorption level, impedance, and material response to radar signals within this range. Furthermore, this study aims to identify material parameters that need to be optimized to enhance radar signal absorption efficiency. By thoroughly understanding the material response using the VNA, the study hopes to identify areas for improvement to enhance radar absorption performance and contribute to the development of more effective radar absorption technologies for military and security applications. The analysis of response using the VNA is key to designing radar-absorbing materials that can reduce radar signal reflections and improve an object's ability to hide or protect itself.
References
[1] Oktavian, Adhyaksa Dwi (2021). Perbandingan Profil Teknis Bahan Arang Kelapa dan Alumunium Sebagai Radar Absorbing Material Untuk Pesawat Tanapa Awak Siluman.
[2] Aryani Rombekila (2021). Menentukan Permitivitas dan Permibialitas Eceng Gondok dengan Metode Free Space Measurment. Sinergitas Multidisiplin Ilmu Pengetahuan dan Teknologi, vol. 4, nol. 1.
[3] Nia Sasria (2016). Pengaruh Metode Pelapisan dan Ketebalan Lapisan terhadap Rugi Refleksi pada Barium M Heksaferrit/Poly(aniline,pyrrole,ethylene terephthalate) sebagai Material Penyerap Radar.
[4] Cindy Mutia Firma, Aloysius Adya Pramudita, Dharu Arseno (2021). Pemodelan Estimasi
[5] Kandungan Air Pada Tanah Berbasis Ground Penetrating RADAR (GPR) Dengan Vector Network Analyzer. e-Proceeding of Engineering : Vol.8, No.6.
[6] Sri Hardiati, Yuyu Wahyu, Hanindya Permatasari, dan Budi Prasetya R (2016). Antena Slot
[7] Waveguide Segi Empat Segala Arah pada Frekuensi 2.4 GHz. Jurnal ELektronika dan Telekomunikasi, Vol. 16, No. 2.
[8] Cornell, R. M., & Schwertmann, U. (2003). The Iron Oxides: Structure, Properties, Reactions, Occurrences, and Uses (2nd ed.). Wiley-VCH. ISBN 978-3527302745.
[9] Dey, S., & Roy, S. (2010). Magnetic and Transport Properties of Fe3O4 Nanoparticles. Journal of Nanoscience and Nanotechnology, 10(7), 4365-4371. DOI: 10.1166/jnn.2010.2331.
[10] Wells, A. F. (1984). Structural Inorganic Chemistry (5th ed.). Oxford University Press. ISBN. 978- 0198553704.
