Logical OR operation and magnetic field sensing based on layered topology

Sui, Junyang; Zhang, Dan; Zhang, Haifeng

doi:10.1088/1361-6463/ac84e9

Cited by 21 publications

(4 citation statements)

References 40 publications

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“…The concentration of the free carriers in the InSb layer is given by the empirical formula below. 20,21 N (m −3 ) = 5.76 × 10 14 T 1.5 0 exp[−0.26/(2 × 8.625 × 10 −5 × T 0 )]…”

Section: Design and Discussionmentioning

confidence: 99%

Advanced optical terahertz fingerprint sensor based on coherent perfect absorption

Zou

Zhang

2023

Phys. Chem. Chem. Phys.

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“…The concentration of the free carriers in the InSb layer is given by the empirical formula below. 20,21 N (m −3 ) = 5.76 × 10 14 T 1.5 0 exp[−0.26/(2 × 8.625 × 10 −5 × T 0 )]…”

Section: Design and Discussionmentioning

confidence: 99%

Advanced optical terahertz fingerprint sensor based on coherent perfect absorption

Zou

Zhang

2023

Phys. Chem. Chem. Phys.

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“…[ 34 ] Therefore, the JMS is the best candidate material to achieve the optical logic function. [ 35 ] Logic gates based on JMS have the properties of compact structure, fast speed, and low power consumption.…”

Section: Introductionmentioning

confidence: 99%

Janus Metastructure Based on Magnetized Plasma Material with and Logic Gate and Multiple Physical Quantity Detection

et al. 2023

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In this paper, a Janus metastructure (JMS) is proposed that can act both as a logic gate and detect multiple physical quantities. By adjusting the incident angle of electromagnetic waves, arranging the dielectrics asymmetrically, and using the anisotropy of the plasma, the Janus function can be obtained, which gives the metastructure a multiscale property. Sharp transmission peak (TP) is generated by located defect mode resonance. The AND logic gate on the positive and negative scales can be realized by judging the TP value. By locking the point frequency of the TP, the refractive index, magnetic field strength, incident angle, and plasma density can be detected simultaneously on the two scales in the GHz range, which is rarely studied. Good sensing performances are also owned, and the corresponding optimal sensitivities are 0.095 (2πc/d)/RIU, 9.42 × 10−3 (2πc/d)/T, 1.48 × 10−3 (2πc/d)/°, and 0.035 (2πc/d) m3/1019, respectively. Compared with the traditional sensors, the proposed JMS equipped with two scales not only can realize the logic gate but also measure multiple physical quantities, which has a certain application potential.

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“…These 1D PCs with defect layer have a wide range of possible applications, including optical filters, optical switches, tunable filters, temperature sensor, pressure sensor, optical biosensor, demultiplexers, and so on 13 – 22 …”

Section: Introductionmentioning

confidence: 99%

“…1,2 These 1D PCs with defect layer have a wide range of possible applications, including optical filters, optical switches, tunable filters, temperature sensor, pressure sensor, optical biosensor, demultiplexers, and so on. [13][14][15][16][17][18][19][20][21][22] Recently, optical biosensor applications of 1D PC structure attract the focus of the research community due to ultra-fast response, compact size, and very precise results. The earliest indicator of any disease is testing of blood and urine sample, whose refractive index characterization is interesting to study for pathologists.…”

Section: Introductionmentioning

confidence: 99%

Design and analysis of optical biosensor based on symmetric and asymmetric structured one-dimensional photonic crystal for tuberculosis detection

Suthar¹,

Bhargava

Bhargava³

2023

Opt. Eng.

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We looked into three distinct topologies, using a one-dimensional photonic crystal with a defect layer in two symmetrical and one asymmetrical configurations as an optical biosensor application for detection in tuberculosis (TB). In order to investigate the optical transmission characteristics of such structures, we used a well-known transfer matrix approach. A shift in resonant peak is estimated, when blood of healthy or TB infected human is infiltrated in defect layer. The impact of several parameters, including the thickness of the defect layer, the number of unit cells, and the angle of incidence for all three configurations, has been studied. The sensitivity, quality factor, figure of merit, and detection limit for all structures have been studied and it is found that asymmetric structure is the best suitable structure for optical sensor application in the present case.

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Logical OR operation and magnetic field sensing based on layered topology

Cited by 21 publications

References 40 publications

Advanced optical terahertz fingerprint sensor based on coherent perfect absorption

Advanced optical terahertz fingerprint sensor based on coherent perfect absorption

Janus Metastructure Based on Magnetized Plasma Material with and Logic Gate and Multiple Physical Quantity Detection

Design and analysis of optical biosensor based on symmetric and asymmetric structured one-dimensional photonic crystal for tuberculosis detection

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