FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313893889> ?p ?o ?g. }

• W4313893889 endingPage "68" @default.
• W4313893889 startingPage "68" @default.
• W4313893889 abstract "An unstable bilirubin level in the human blood causes many dangerous health problems, such as jaundice, coronary artery disease, ulcerative colitis, and brain lesions. Therefore, the accurate and early detection of bilirubin concentrations in the blood is mandatory. In this work, a highly sensitive biosensor based on photonic crystal fiber (PCF) for monitoring bilirubin levels is proposed and analyzed. The sensor parameters, including relative sensitivity, effective mode area, confinement loss, and effective material loss, are calculated. The geometrical parameters are studied, and a modal analysis of the suggested sensor is carried out using the full-vectorial finite element method (FEM). The fabrication tolerance of the geometrical parameters is also studied to ensure the fabrication feasibility of the reported design. High sensitivities of 95% and 98% are obtained for the x-polarized and y-polarized modes, respectively. Furthermore, a small material loss of 0.00193 cm−1, a small confinement loss of 2.03 × 10−14 dB/cm, and a large effective mode area of 0.046 mm2 are achieved for the y-polarized mode. It is believed that the presented sensor will be helpful in health care and in the early detection of bilirubin levels in the blood." @default.
• W4313893889 created "2023-01-10" @default.
• W4313893889 creator A5017254893 @default.
• W4313893889 creator A5024523986 @default.
• W4313893889 creator A5042266244 @default.
• W4313893889 creator A5053107270 @default.
• W4313893889 creator A5078843750 @default.
• W4313893889 creator A5079518101 @default.
• W4313893889 date "2023-01-08" @default.
• W4313893889 modified "2023-10-05" @default.
• W4313893889 title "Highly Sensitive Bilirubin Biosensor Based on Photonic Crystal Fiber in Terahertz Region" @default.
• W4313893889 cites W1966392366 @default.
• W4313893889 cites W1978767434 @default.
• W4313893889 cites W1981157449 @default.
• W4313893889 cites W1987925546 @default.
• W4313893889 cites W1993001190 @default.
• W4313893889 cites W2019642990 @default.
• W4313893889 cites W2048510121 @default.
• W4313893889 cites W2053869400 @default.
• W4313893889 cites W2073295753 @default.
• W4313893889 cites W2094672701 @default.
• W4313893889 cites W2101821074 @default.
• W4313893889 cites W2129418287 @default.
• W4313893889 cites W2206087147 @default.
• W4313893889 cites W2296185757 @default.
• W4313893889 cites W2304608673 @default.
• W4313893889 cites W2312141670 @default.
• W4313893889 cites W2320177040 @default.
• W4313893889 cites W2374911344 @default.
• W4313893889 cites W2421540942 @default.
• W4313893889 cites W2569331960 @default.
• W4313893889 cites W2623521812 @default.
• W4313893889 cites W2754200967 @default.
• W4313893889 cites W2777389600 @default.
• W4313893889 cites W2782526479 @default.
• W4313893889 cites W2786009866 @default.
• W4313893889 cites W2789233064 @default.
• W4313893889 cites W2790415988 @default.
• W4313893889 cites W2791623150 @default.
• W4313893889 cites W2804705236 @default.
• W4313893889 cites W2890557273 @default.
• W4313893889 cites W2896096437 @default.
• W4313893889 cites W2918689825 @default.
• W4313893889 cites W2946306133 @default.
• W4313893889 cites W2946460018 @default.
• W4313893889 cites W2947753124 @default.
• W4313893889 cites W2950816412 @default.
• W4313893889 cites W2966785352 @default.
• W4313893889 cites W2991358646 @default.
• W4313893889 cites W2992673092 @default.
• W4313893889 cites W2995385637 @default.
• W4313893889 cites W3006126816 @default.
• W4313893889 cites W3011007539 @default.
• W4313893889 cites W3012085689 @default.
• W4313893889 cites W3017452962 @default.
• W4313893889 cites W3031375782 @default.
• W4313893889 cites W3035299183 @default.
• W4313893889 cites W3040708369 @default.
• W4313893889 cites W3041466345 @default.
• W4313893889 cites W3047980539 @default.
• W4313893889 cites W3048062515 @default.
• W4313893889 cites W3083698259 @default.
• W4313893889 cites W3086682161 @default.
• W4313893889 cites W3092587452 @default.
• W4313893889 cites W3097587049 @default.
• W4313893889 cites W3098497422 @default.
• W4313893889 cites W3107744477 @default.
• W4313893889 cites W3111253953 @default.
• W4313893889 cites W3118106482 @default.
• W4313893889 cites W3119117009 @default.
• W4313893889 cites W3124993720 @default.
• W4313893889 cites W3126093343 @default.
• W4313893889 cites W3127260543 @default.
• W4313893889 cites W3133275897 @default.
• W4313893889 cites W3137103086 @default.
• W4313893889 cites W3140535929 @default.
• W4313893889 cites W3153073947 @default.
• W4313893889 cites W3157369405 @default.
• W4313893889 cites W3164935781 @default.
• W4313893889 cites W3169501249 @default.
• W4313893889 cites W3172555787 @default.
• W4313893889 cites W3173674353 @default.
• W4313893889 cites W3176397543 @default.
• W4313893889 cites W3178184583 @default.
• W4313893889 cites W3184783628 @default.
• W4313893889 cites W3192236477 @default.
• W4313893889 cites W3196944540 @default.
• W4313893889 cites W4200459827 @default.
• W4313893889 cites W4200537324 @default.
• W4313893889 cites W4210418339 @default.
• W4313893889 cites W4210499614 @default.
• W4313893889 cites W4210646761 @default.
• W4313893889 cites W4220938475 @default.
• W4313893889 cites W4242154677 @default.
• W4313893889 cites W4292503876 @default.
• W4313893889 cites W4306682004 @default.
• W4313893889 doi "https://doi.org/10.3390/photonics10010068" @default.
• W4313893889 hasPublicationYear "2023" @default.

• next