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Using an Off-the-Shelf Lock-In Detector for Admittance Spectroscopy in the Study of Plants

Using an Off-the-Shelf Lock-In Detector for Admittance Spectroscopy in the Study of Plants
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摘要 We report on the development of an electrical characterization admittance spectroscopy equipment and method based on an off-the-shelf lock-in detector that is cheap and yet highly sensitive. It is concluded that a contacted constant-pressure electrode configuration is preferable. It was further determined that the temperature does not have great impact in the measured values, but relative humidity of air can be important, especially in the constant-gap electrode configuration. In-situ measurements are difficult since the coupling of the plant with the environment is of high importance. Another aspect is the cables;they are important in that they have to be terminated by their characteristic impedance (50 Ω?in our case) to avoid reflections that introduce artificial attenuation and phase shifts in the signal. We introduce a fingerprint plot type to be able to distinguish between various plants and other specimens, and can actually detect the aqueous state of a plant. We report on the development of an electrical characterization admittance spectroscopy equipment and method based on an off-the-shelf lock-in detector that is cheap and yet highly sensitive. It is concluded that a contacted constant-pressure electrode configuration is preferable. It was further determined that the temperature does not have great impact in the measured values, but relative humidity of air can be important, especially in the constant-gap electrode configuration. In-situ measurements are difficult since the coupling of the plant with the environment is of high importance. Another aspect is the cables;they are important in that they have to be terminated by their characteristic impedance (50 Ω?in our case) to avoid reflections that introduce artificial attenuation and phase shifts in the signal. We introduce a fingerprint plot type to be able to distinguish between various plants and other specimens, and can actually detect the aqueous state of a plant.
出处 《Agricultural Sciences》 2020年第4期390-416,共27页 农业科学(英文)
关键词 ADMITTANCE Spectroscopy In VIVO Non INVASIVE Admittance Spectroscopy In Vivo Non Invasive
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