1999
DOI: 10.1364/ao.38.004623
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Electro-optic lightning detector

Abstract: The design, alignment, calibration, and field deployment of a solid-state lightning detector is described. The primary sensing component of the detector is a potassium dihydrogen phosphate (KDP) electro-optic crystal that is attached in series to a fiat plate aluminum antenna; the antenna is exposed to the ambient thundercloud electric field. A semiconductor laser diode (2 = 685 nm), polarizing optics, and the crystal are arranged in a Pockels cell configuration.Lightning-caused electric field changes are rela… Show more

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Cited by 10 publications
(4 citation statements)
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“…The technology is now mature for commercialization, as evidenced by Refs. 28, 50, and 51, and has become a dedicated technique in severe environments such as plasmas, 24,25 lightnings, 26 or MRI. 52,53 PSM-based sensors are also ever-attractive for the near-field characterization of antennas, 38,48 due to their minimal invasiveness associated with their wide BW and ability to perform vectorial measurements.…”
Section: Bulk Electro-optic Sensorsmentioning
confidence: 99%
See 1 more Smart Citation
“…The technology is now mature for commercialization, as evidenced by Refs. 28, 50, and 51, and has become a dedicated technique in severe environments such as plasmas, 24,25 lightnings, 26 or MRI. 52,53 PSM-based sensors are also ever-attractive for the near-field characterization of antennas, 38,48 due to their minimal invasiveness associated with their wide BW and ability to perform vectorial measurements.…”
Section: Bulk Electro-optic Sensorsmentioning
confidence: 99%
“…Since the 1960s and the development of the first electro-optical (EO) E-field sensors, 19,20 Pockels-based probes have experienced great success due to their intrinsic wide BW extending from DC to several THz, 21,22 their associated subpicosecond temporal resolution, 23 and their dielectric-and therefore minimally invasive-nature. By inducing a linear variation of the refractive index as a function of electric field components, the Pockels effect offers the additional advantage of enabling vector measurements, even in the most severe environments such as plasmas, 24,25 lightning, 26 gas insulation substations, or ultra-high voltage transmission towers. 27 In the past, several comprehensive studies of Pockels-based probes have illustrated the attractive properties of EO sensors.…”
Section: Introductionmentioning
confidence: 99%
“…So, advanced sensing instruments and technologies should be the best choice to replace the work by manpower. Actually, many lightning stroke location methods have been proposed and experimentally demonstrated, such as use of Faraday effect to sense the change of electro-magnetic field caused by lightning stroke [1][2][3], and the method by monitoring the state of polarization (SOP) of probe light to analyze the lightning incident [4,5]. However, the lightning stroke location method by Faraday Effect is not appropriate when the sensors are set in the environment with strong electro-magnetic interference and it is not a distributed sensing method, which makes the cost for lightning stroke location unacceptable.…”
Section: Introductionmentioning
confidence: 99%
“…Several lightning-location methods using fibre optical sensors have already been proposed. In [1,2], the use of the Faraday effect to detect lightning was proposed. In [3], a Rogowski coil coupled to line insulators and fibre optic light transmitters is used to detect when lightning breaks an insulator string of a high-voltage power transmission line.…”
Section: Introductionmentioning
confidence: 99%