Abstract
The occurrence of lightning in a planetary atmosphere enables chemical processes to take place that would not occur under standard temperatures and pressures1,2,3. Although much evidence has been reported for lightning on Venus4,5,6,7,8, some searches have been negative9,10,11 and the existence of lightning has remained controversial. A definitive detection would be the confirmation of electromagnetic, whistler-mode waves propagating from the atmosphere to the ionosphere. Here we report observations of Venus’ ionosphere that reveal strong, circularly polarized, electromagnetic waves with frequencies near 100 Hz. The waves appear as bursts of radiation lasting 0.25 to 0.5 s, and have the expected properties of whistler-mode signals generated by lightning discharges in Venus’ clouds.
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References
Desch, S. J., Borucki, W. J., Russell, C. T. & Bar-Nun, A. Progress in planetary lightning. Rep. Prog. Phys. 65, 955–997 (2002)
Krasnopolsky, V. A. A sensitive search for nitric oxide in the lower atmosphere of Venus and Mars: Detection on Venus and upper limit for Mars. Icarus 192, 80–91 (2006)
Bar-Nun, A. Production of carbon and nitrogen species by thunderstorms on Venus. Icarus 42, 338–342 (1990)
Ksanfomaliti, L. V. Electrical activity of the atmosphere of Venus, I. Measurements on descending probes. Kosmich. Issled. 21, 279–296 (1983)
Krasnopol’sky, V. A. Lightning and nitric oxide on Venus. Planet. Space Sci. 31, 1363–1369 (1983)
Russell, C. T. & Scarf, F. L. Evidence for lightning on Venus. Adv. Space Res. 10, 125–136 (1990)
Gurnett, D. A. et al. Lightning and plasma wave observations from the Galileo flyby of Venus. Science 253, 1522–1525 (1991)
Hansell, S. A., Wells, W. K. & Hunten, D. M. Optical detection of lightning on Venus. Icarus 117, 345–351 (1995)
Sagdeev, R. Z. et al. Overview of VEGA Venus balloon in-situ meteorological measurements. Science 231, 1411–1414 (1986)
Borucki, W. J., Dyer, J. W., Phillips, J. R. & Pham, P. Pioneer Venus Orbiter search for Venusian lightning. J. Geophys. Res. A 96, 11033–11043 (1991)
Gurnett, D. A. et al. Non-detection at Venus of high-frequency radio signals characteristic of terrestrial lightning. Nature 409, 313–315 (2001)
Zhang, T. L. et al. Magnetic field investigation of the Venus plasma environment: Expected new results from Venus Express. Planet. Space Sci. 54, 1336–1343 (2006)
Russell, C. T., von Dornum, M. & Strangeway, R. J. VLF bursts in the night ionosphere of Venus: Estimates of the Poynting flux. Geophys. Res. Lett. 16, 579–582 (1989)
Russell, C. T., Von Dornum, M. & Scarf, F. L. Impulsive signals in the night ionosphere of Venus: Comparison of results obtained below the local electron gyro frequency with those above. Adv. Space Res. 10, 37–40 (1990)
Russell, C. T. Planetary lightning. Annu. Rev. Earth Planet. Sci. 21, 43–87 (1993)
Acknowledgements
This work was supported by NASA and the Austrian Academy of Science.
Author Contributions T.L.Z. is the Principal Investigator of the Venus Express magnetometer. M.D. led the development of the gradiometer technique used, and assisted in calibration and commissioning of the magnetometer. W.M. was the engineer responsible for the successful implementation of the investigation, and R.J.S. provided guidance in the design, based on Pioneer Venus observations.
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Russell, C., Zhang, T., Delva, M. et al. Lightning on Venus inferred from whistler-mode waves in the ionosphere. Nature 450, 661–662 (2007). https://doi.org/10.1038/nature05930
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DOI: https://doi.org/10.1038/nature05930
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