Acta Photonica Sinica, Volume. 52, Issue 10, 1052407(2023)
Hardware Reconfigurable Near Infrared Wavelength Modulated Methane Sensor and Its Application(Invited)
[1] Caineng ZOU, Dongbo HE, Chengye JIA et al. Connotation and pathway of world energy transition and its significance for carbon neutral. Acta Petrolei Sinica, 42, 233-247(2021).
[2] Y M WEI, K Y CHEN, J N KANG et al. Policy and management of carbon peaking and carbon neutrality: a literature review. Engineering, 14, 52-63(2022).
[3] Z W CAO, X ZHOU, H HU et al. Toward a systematic survey for carbon neutral data centers. IEEE Communications Surveys and Tutorials, 24, 895-936(2022).
[4] L OLEG, P VASILE, M MATTHIAS et al. Low powered, tunable and ultra-light aerographite sensor for climate relevant gas monitoring. Journal of Materials Chemistry A, 4, 16723-16730(2016).
[5] L M GOLSTON, L TAO, C BROSY et al. Lightweight mid-infrared methane sensor for unmanned aerial systems. Applied Physics B, 123, 170(2017).
[6] S G RAZAVIPOUR, J A GUPTA, G SABISTON et al. Pressure-dependent sensitivity of a single-pass methane detection system using a continuous-wave distributed feedback laser at 3 270 nm. Applied Optics, 58, 6906-6911(2019).
[7] W THOMAS, S MARIUS, M G JUAN et al. Gas source localization based on binary sensing with a UAV(21781059).
[8] K TYLER, G FELIPE, KYE M . A UAV system for autonomous target detection and gas sensing(16946575).
[9] Jianing WANG, Xintao NIU, Ziming XU et al. Monitoring system for CO2 concentration in greenhouse based on wireless sensor network. Transactions of the Chinese Society of Agricultural Machinery, 48, 280-285, 367(2017).
[10] Zhihong SUN. Research on toxic gas detection algorithm with wireless sensor networks based on proximity graph(2017).
[11] A O PEREZ, B BIERER, L SCHOLZ et al. A wireless gas sensor network to monitor indoor environmental quality in schools. Sensors, 18, 13(2018).
[12] L FENG, J WANG, Y CHEN et al. Detection and early warning of toxic gases based on semiconductor wireless sensors. Journal of Sensors, 2021, 6988676(2021).
[13] Z Z WANG, T KAMIMOTO, Y DEGUCHI et al. Two dimensional temperature measurement characteristics in pulverized coal combustion field by computed tomography-tunable diode laser absorption spectroscopy. Applied Thermal Engineering, 171, 115066(2020).
[14] Haiying QI, Chuantao ZHENG. A methane detection device using near-infrared long-path laser absorption spectroscopy. Journal of Optoelectronics·Laser, 31, 21-26(2020).
[15] J Q CHANG, Q X HE, J K LI et al. Oxygen detection system based on TDLAS-WMS and a compact multipass gas cell. Microwave and Optical Technology Letters, 1-5(2022).
[16] Fang SONG. Research of mid-infrared laser methane sensing technique(2020).
[17] G GERVASONI, M CARMINATI, FERRARIG . A general purpose lock-in amplifier enabling sub-ppm resolution. Procedia Engineering, 168, 1651-1654(2016).
[18] M PAULINA, C BELEN, T S P MARIA et al. Low cost autonomous lock-in amplifier for resistance/capacitance sensor measurements. Electronics, 8, 18-27(2019).
[19] K XIE, L H CHEN, A F HUANG et al. An auxiliary frequency tracking system for general purpose lock-in amplifiers. Measurement Science and Technology, 29, 45-57(2018).
[20] K HUANG, Y Y GENG, X B ZHANG et al. A wide-band digital lock-in amplifier and its application in microfluidic impedance measurement. Sensors, 19, 3519-3524(2019).
[21] Wenwen CHEN. Development of FPGA-based digital quadrature lock-in amplifier and application of gas detection(2021).
[22] Junyi YANG. Study of lock-in amplifiers based on FPGA(2012).
[23] Xing ZHAO. Design of the lock-in amplifier based on fpga and its application in multi-component gases detection(2015).
[24] M PAULINA, C BELÉN, T S P MARÍA et al. Low cost autonomous lock-in amplifier for resistance/capacitance sensor measurements. Electronics, 8, 1413(2019).
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Yuechong SHI, Yafei LI, Fang SONG, Chuantao ZHENG, Yiding WANG. Hardware Reconfigurable Near Infrared Wavelength Modulated Methane Sensor and Its Application(Invited)[J]. Acta Photonica Sinica, 2023, 52(10): 1052407
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Received: Mar. 9, 2023
Accepted: Aug. 15, 2023
Published Online: Dec. 5, 2023
The Author Email: ZHENG Chuantao (zhengchuantao@jlu.edu.cn)