Few-mode optical fiber surface plasmon resonance sensor with controllable range of measured refractive index

Abstract: A few-mode optical fiber surface plasmon resonance sensor with graphene layer is investigated, firstly, with the aim of studying the behavior of the guided modes and, secondly, with the aim of determining the range of the measured refractive index for some selected few-mode fibers. The results show that as the number of modes propagated in the fiber increases, the maximum sensitivity of a particular mode decreases while the range of the measured refractive index of that mode increases. Also, it is shown that t… Show more

“…The defect induced a reflection dip at the specific wavelength of 532 nm [17]. For biosensing purposes, a sensing slot was introduced in the defect region, and we varied the height of the defect layer to observe changes in reflection characteristics and central wavelength [18]. Figure 1.…”

Design and simulation of a photonic crystal sensor for accurate blood plasma diagnostics

“…The defect induced a reflection dip at the specific wavelength of 532 nm [17]. For biosensing purposes, a sensing slot was introduced in the defect region, and we varied the height of the defect layer to observe changes in reflection characteristics and central wavelength [18]. Figure 1.…”

Design and simulation of a photonic crystal sensor for accurate blood plasma diagnostics