Measuring Light Air Ions in a Speleotherapeutic Cave

[1] Hörrak, U. (2001). Air ion mobility spectrum at a rural area. PhD thesis, University of Tartu, Estonia.Search in Google Scholar

[2] Aplin, K.L., Harrison, R.G. (2001). A self-calibrating programable mobility spectrometer for atmospheric ion measurements. Review of Scientific Instruments, 72 (8), 3467-3469.10.1063/1.1382634Search in Google Scholar

[3] Aplin, K.L., Harrison, R.G. (2000). A computer-controlled Gerdien atmospheric ion counter. Review of Scientific Instruments, 71 (8), 3037-3041.10.1063/1.1305511Search in Google Scholar

[4] Harrison, R.G., Aplin, K.L. (2000). A multimode electrometer for atmospheric ion measurements. Review of Scientific Instruments, 71 (12), 4683-4685.10.1063/1.1327303Search in Google Scholar

[5] Harrison, R.G., Aplin, K.L. (2007). Water vapour changes and atmospheric cluster ions. Atmospheric Research, 85 (2), 199-208.10.1016/j.atmosres.2006.12.006Search in Google Scholar

[6] Hirsikko, A., et. al. (2011). Atmospheric ions and nucleation: A review of observations. Atmospheric Chemistry and Physics, 11, 767-798.10.5194/acp-11-767-2011Search in Google Scholar

[7] Tammet, H., Kulmala, M. (2005). Simulation tool for atmospheric aerosol nucleation bursts. Journal of Aerosol Science, 36 (2), 173-196.10.1016/j.jaerosci.2004.08.004Search in Google Scholar

[8] Harrison, R.G., Tammet, H. (2008). Ions in the terrestrial atmosphere and other solar system atmospheres. Space Science Reviews, 137 (1-4), 107-118.10.1007/s11214-008-9356-xSearch in Google Scholar

[9] Grabarzyk, Z. (2001). Frequency characteristic of an aspiration integrating small ion counter with a shielded collector. Journal of Electrostatics, 51-52, 284-289.10.1016/S0304-3886(01)00057-2Search in Google Scholar

[10] Tammet, H. (2006). Continuous scanning of the mobility and size distribution of charged clusters and nanometer particles in atmospheric air and the Balanced Scanning Mobility Analyzer BSMA. Atmospheric Research, 82 (3), 523-535.10.1016/j.atmosres.2006.02.009Search in Google Scholar

[11] Mirme, A., Tamm, E., Mordas, G., Vana, M., Uin, A.J., Mirme, S., Bernotas, T., Laakso, L., Hirsikko, A., Kulmala, M. (2007). A widerange multi-channel Air Ion Spectrometer. Boreal Environment Research, 12, 247-264.Search in Google Scholar

[12] Tammet, H., Mirme, A., Tamm, E. (2002). Electrical aerosol spectrometer of Tartu University. Atmospheric Research, 62 (3-4), 315-324.10.1016/S0169-8095(02)00017-0Search in Google Scholar

[13] Biskos, G., Reavell, K., Collings, N. (2005). Description and theoretical analysis of a differential mobility spectrometer. Aerosol Science and Technology, 39, 527-541.10.1080/027868291004832Search in Google Scholar

[14] Kolarž, P., Marinković, B.P., Filipović, D.M. (2005). Zeroing and testing units developed for Gerdien atmospheric ion detectors. Review of Scientific Instruments, 76 (4), 046107.10.1063/1.1891444Search in Google Scholar

[15] Charry, J.M., Kavet, R. (1987). Air Ions: Physical and Biological Aspects. CRC Press.Search in Google Scholar

[16] Sirota, V., Safronova, V.G., Amelina, A.G., Maltseva, V.N., Avkhacheva, N.V., Sofin, A.D., Yanin, V.A., Mubarakshina, E.K., Romanova, L.K., Novoselov, V.I. (2008). The effect of negative air ions on the respiratory organs and blood. Biophysics, 53 (5), 457–462.10.1134/S0006350908050242Search in Google Scholar

[17] Sirota, T.V., Novoselov, V.I., Safronova, V.G., Yanin, V.A., Tsvetkov, V.D., Amelina, S.E., Lushnikova, A.L., Maltseva, V.N., Tikhonov, V.P., Kondrashova, M.N. (2006). The effect of inhaled air ions generated by technical ionizers and a bioionizer on rat trachea mucosa and the phagocytic activity of blood cells. IEEE Transactions on Plasma Science, 34 (4), 1351-1358.10.1109/TPS.2006.877647Search in Google Scholar

[18] Tikhonov, V.P., Temnov, A.A., Kushnir, V.A., Sirota, T.V., Litvinova, E.G., Zakharchenko, M.V., Kondrashova, M.N. (2004). Complex therapeutical effect of ionized air: Stimulation of the immune system and decrease in excessive serotonin. H₂O₂ as a link between the two counterparts. IEEE Transactions on Plasma Science, 32 (4), 1661-1667.Search in Google Scholar

[19] Kondrashova, M.N., Grigigorreko, E.V., Tikhonov, A.N., Sirota, T.V., Temnov, A.V., Stavrovskaya, I.G., Kosyakova, N.I., Lange, N.V., Tikonov, V.P. (2000). The primary physico-chemical mechanism for the beneficial biological/medical effects of negative air ions. IEEE Transactions on Plasma Science, 28 (1), 230-237.10.1109/27.842910Search in Google Scholar

[20] Tikhonov, V.P., Tsvetkov, V.D., Litvinova, E.G., Sirota, T.V., Kondrashova, M.N. (2004). Generation of negative air ions by plants upon pulsed stimulation applied to soil. Journal of Plant Physiology, 51 (3), 414-419.10.1023/B:RUPP.0000028690.74805.e2Search in Google Scholar

[21] Szabó, Z., Bartušek, K. (2009). Air ions concentration influence on bacterial colony count in the dwelling spaces. In PIERS Proceedings, Moscow, Russia, August 18-21, 2009, 1053-1055.Search in Google Scholar

[22] Kolarž, P.M., Filipović, D.M., Marinković, B.P. (2009). Daily variations of indoor air-ion and radon concentrations. Applied Radiation and Isotopes, 67 (11), 2062-2067.10.1016/j.apradiso.2009.07.02319700332Search in Google Scholar

[23] Kolarž, P., Gaisberger, M., Madl, P., Hofmann, W., Ritter, M., Hartl, A. (2011). Characterization of ions at Alpine waterfalls. Atmospheric Chemistry & Physics Discussions, 11 (9), 3687-3697.10.5194/acpd-11-25297-2011Search in Google Scholar

[24] Freund, F.T., Kulahci, I.G., Cyr, G., Ling, J., Winnick, M., Tregloan-Reed, J., Freund, M.M. (2009). Air ionization at rock surfaces and pre-earthquake signals. Journal of Atmospheric and Solar-Terrestrial Physics, 71 (17-18), 1824-1834.10.1016/j.jastp.2009.07.013Search in Google Scholar

[25] Freund, F. (2011) Pre-earthquake signals: Underlying physical processes. Journal of Asian Earth Sciences, 41 (4-5), 383-400.10.1016/j.jseaes.2010.03.009Search in Google Scholar

[26] Aplin, K.L. (2008). Composition and measurement of charged atmospheric clusters. In Planetary Atmospheric Electricity. Springer, Vol. 30, 213-224.Search in Google Scholar

[27] Leblanc, F., Aplin, K.L., Yair, Y., Harrison, G., Lebreton, J.P., Blanc, M. (Eds.) (2008). Planetary Atmospheric Electricity. Springer.10.1007/978-0-387-87664-1Search in Google Scholar

[28] Israël, H. (1971). Atmospheric Electricity. Vol. I. Jerusalem: IPST.Search in Google Scholar

[29] Jirka, Z. (2001). Speleoterapie: principy a zkušenosti. 1. vyd. Olomouc: Univerzita Palackého. (in Czech)Search in Google Scholar

[30] Bartušek, K., Fiala, P., Jirků, T., Kroutilová, E. (2007). Experiments of accuracy air ion field measurement. PIERS Online, 3 (8), 1330-1333.10.2529/PIERS070418103753Search in Google Scholar

[31] Steinbauer, M., Fiala, P., Bartušek, K., Szabó, Z. (2008). Experiments with accuracy of air ion field measurement. In PIERS Proceedings, Hangzhou, China, March 24-28, 2008, 1062-1066.Search in Google Scholar

[32] Roubal, Z., Křepelka, P. (2013). Estimation of the air ion mobility spectrum by means of a Gerdien Tube with a segmented inner electrod. In PIERS Proceedings, Stockholm, Sweden, August 12-15, 2013, 767-771.Search in Google Scholar

[33] Roubal, Z., Szabó, Z., Steinbauer, M. (2014). Uncertainty determination in measurements using a Gerdien Tube. In PIERS Proceedings, Guangzhou, China, August 25-28, 2014, 1902-1906.Search in Google Scholar

[34] Israël, H., Schulz, L. (1933). The mobility-spectrum of atmospheric ions—principles of measurements and results. Journal of Geophysical Research, 38 (4), 285-300.10.1029/TE038i004p00285Search in Google Scholar

[35] Roubal, Z., Steinbauer, M. (2010). Design of electrometric amplifier for aspiration condenser measurement. In PIERS Proceedings, Xi’an, China, March 22-26, 2010, 1430-1434.Search in Google Scholar

[36] Bartušek, K., Dokoupil, Z. (2003). Automatic device for ion fields measurement. Measurement Science Review, 3 (3), 75-78.Search in Google Scholar

[37] Roubal, Z., Steinbauer, M., Szabó, Z. (2010). Modeling of saturation characteristic of an aspiration condenser. PIERS Online, 6 (1), 26-30.10.2529/PIERS090904101146Search in Google Scholar

[38] Roubal, Z., Bartušek, K., Szabó, Z., Drexler, P. (2011). Measurement of concentration and mobility spectrum of air ions in the natural environment. In PIERS Proceedings, Marrakesh, Morocco, March 20-23, 2011, 648-652.Search in Google Scholar

[39] Bartušek, K., Buřival, Z., Darina, H. (1999). Methodology of measurement of air ions in moist environment for speleotheraphy. In Measurement ‘99: 2nd International Conference on Measurement. Bratislava, Slovak Republic: Institute of Measurement Science, Slovak Academy of Sciences, 262-265.Search in Google Scholar

[40] Kolarž, P.M., Filipović, D.M. (2003). A new design of Gerdian type of small air-ion detector. In 5th General International Conference of Balkan Physical Union (BPU-5), August 25-29, 2003, Vrnajcka Banja, Serbia and Montenegro, 411.Search in Google Scholar