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@article{1397023, author = {Voráč, Jan and Synek, Petr and Procházka, Vojtěch and Hoder, Tomáš}, article_number = {5-6}, keywords = {OH; rotational distribution; quantum states; water fragments; memory}, language = {eng}, issn = {1432-1092}, journal = {Europhysicsnews}, title = {Information stored in quantum states of water fragments}, url = {http://www.europhysicsnews.org/articles/epn/pdf/2017/05/epn2017-48-5-6.pdf}, volume = {48}, year = {2017} }
TY - JOUR ID - 1397023 AU - Voráč, Jan - Synek, Petr - Procházka, Vojtěch - Hoder, Tomáš PY - 2017 TI - Information stored in quantum states of water fragments JF - Europhysicsnews VL - 48 IS - 5-6 SP - 16 EP - 16 SN - 14321092 KW - OH KW - rotational distribution KW - quantum states KW - water fragments KW - memory UR - http://www.europhysicsnews.org/articles/epn/pdf/2017/05/epn2017-48-5-6.pdf L2 - http://www.europhysicsnews.org/articles/epn/pdf/2017/05/epn2017-48-5-6.pdf N2 - Does water have memory? Well, not in the usual sense. But it is known, that if you tear water molecules apart, the remaining fragments can tell you a story about how it happened. To inves- tigate this phenomenon, a plasma reactor producing miniature lightnings in direct contact with water level was constructed. The electrical discharges are powerful enough to cause dis- sociation of water molecules in various ways. To facilitate the electrical breakdown, the atmosphere in the reactor was re- placed by argon. The water molecule can be broken by impact of sufficiently fast electron, absorption of deep UV photon or previously ex- cited argon atom. Each of these processes has a different en- ergy balance and the remaining energy is partially conserved in quantum states of the water fragments. By careful analysis of the light emitted by the relaxing OH radicals, we can dis- entangle the respective contributions to the total spectrum and calculate the portion of water molecules undergoing various dissociation mechanisms. The water fragments really remember what preceded their creation and they let us know by emitting photons. The time scale for "forgetting" depends on the collisional rate, i.e. the pressure. At atmospheric pressure, the information can be kept for several nanoseconds. ER -
VORÁČ, Jan, Petr SYNEK, Vojtěch PROCHÁZKA and Tomáš HODER. Information stored in quantum states of water fragments. \textit{Europhysicsnews}. 2017, vol.~48, 5-6, p.~16. ISSN~1432-1092.
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