Abstract
This study designed and fabricated a frequency-selective structure-based security paper for the electromagnetic detection system of a security gate, which aims to prevent leakage of confidential documents. When a functional paper embedded with a frequency-selective pattern that selectively reflects a specific frequency is being leaked out of a security zone, the electromagnetic detection system receives and detects the intensity of the electromagnetic wave reflected from the security paper passing through an antenna gate, which transmits/receives RF signals. A stable detection performance of the security paper can be ensured by improving the incidence angle stability for incident waves and reducing the reflection loss. This study designed a frequency-selective structure with stable frequency reflection properties at the X-band by utilizing a Jerusalem cross structure. The proposed design was realized using the screen printing technique, which could implement a circuit, to print silver ink on a plain paper. To verify the applicability of the frequency-selective structure-based security paper, an RF detection system with a multiple antenna array was constructed and the intensity of the received signals was measured. The measurement was performed for various scenarios, and the result showed that the proposed security paper was well detected.
Highlights
Our information society is being sustained by intense technology competition for taking the initiative in high-tech development
The reflection performance of the patch structure at normal incidence was improved to 90.3%, but the incidence angle stability was 7.1% (732 MHz), which corresponded to a 4.5% decrease from the four-legged element structure
This study used an frequency-selective surface (FSS) for designing and fabricating a security paper in order to prevent the leakage of classified documents
Summary
Our information society is being sustained by intense technology competition for taking the initiative in high-tech development. The EM method is typically applied in the form of a microwire and fabricates security papers by installing a tag on each sheet of the document. It has a short recognition distance and, low efficiency of document detection. To address the above limitations, this study fabricates a security paper by applying the frequency-selective surface (FSS) technology, which is available at the microwave band. To fabricate each sheet of a document as FSS-based security paper, a new method that considers issues such as applicability in paper, workability, mass production, and cost needs to be developed [12]. This study attempted to prevent the leakage of paper documents by applying the FSS technology to fabricate an electromagnetic security paper. The applicability of the proposed security paper to a real security system could be examined
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