. "ion tracks; negative differential resistance; neural networks"@en . "18"^^ . "7"^^ . . "251813" . . . "Conducting swift heavy ion track networks"@en . "165" . . . "3" . . "In this paper, the electronic behavior of conducting swift heavy ion track networks is studied. On the one hand, the transient conductivity of ion tracks in metal oxides on silicon in status nascendi is exploited for this purpose, and on the other hand, conducting tracks are produced by ion irradiation of insulating membranes (either self-supported or deposited onto silicon substrates), subsequent etching and finally inserting conducting materials of whatever provenience (in this work preferentially electrolytes). Depending on their manufacture, the conducting tracks either act as electronically active or passive elements. When applying a voltage across individual tracks in the first case, one observes current spikes with negative differential resistances. These tracks interact among themselves, leading to phase-locked synchronous coupled oscillations with complex patterns that are quite similar to those emerging from neural networks." . . . . "Conducting swift heavy ion track networks" . . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . . "000275126400005" . . . . "In this paper, the electronic behavior of conducting swift heavy ion track networks is studied. On the one hand, the transient conductivity of ion tracks in metal oxides on silicon in status nascendi is exploited for this purpose, and on the other hand, conducting tracks are produced by ion irradiation of insulating membranes (either self-supported or deposited onto silicon substrates), subsequent etching and finally inserting conducting materials of whatever provenience (in this work preferentially electrolytes). Depending on their manufacture, the conducting tracks either act as electronically active or passive elements. When applying a voltage across individual tracks in the first case, one observes current spikes with negative differential resistances. These tracks interact among themselves, leading to phase-locked synchronous coupled oscillations with complex patterns that are quite similar to those emerging from neural networks."@en . "Vac\u00EDk, Ji\u0159\u00ED" . . "P(KAN400480701), Z(AV0Z10480505)" . "Chandra, A." . "RIV/61389005:_____/10:00352452" . "Kiv, A." . . "Radiation Effects and Defects in Solids" . "3"^^ . . "RIV/61389005:_____/10:00352452!RIV11-AV0-61389005" . "Fink, Dietmar" . "Fuks, D." . "1042-0150" . "Conducting swift heavy ion track networks"@en . "[8338EC1C4679]" . "Saad, A." . "Hnatowicz, Vladim\u00EDr" . "Conducting swift heavy ion track networks" . "Fink, Dietmar" .