By using nanolithography and a soft etching procedure, we have realized YBa2Cu3O7x=La0:7Sr0:3MnO3 (YBCO/LSMO) nanowires, with cross sections down to 10050 nm2 that ensure the cover age of areas up to 1030 m2. The LSMO layer acts as a capping for YBCO, minimizing the degradation of the superconducting properties taking place during the patterning; moreover, as a ferromagnetic manganite, it is expected to accelerate the relaxation dynamics of quasiparticles in YBCO, making such a system potentially attractive for applications in superconducting ultrafast optoelectronics. The reproducibility of the values of the critical current densities measured in different devices with the same geometry makes our nanowires ideal candidates for photoresponse experiments. First measurements have shown a satisfactory photoresponse from YBCO=LSMO devices.
Highly homogeneous YBCO/LSMO nanowires for photoresponse experiments
TAFURI, Francesco;
2014
Abstract
By using nanolithography and a soft etching procedure, we have realized YBa2Cu3O7x=La0:7Sr0:3MnO3 (YBCO/LSMO) nanowires, with cross sections down to 10050 nm2 that ensure the cover age of areas up to 1030 m2. The LSMO layer acts as a capping for YBCO, minimizing the degradation of the superconducting properties taking place during the patterning; moreover, as a ferromagnetic manganite, it is expected to accelerate the relaxation dynamics of quasiparticles in YBCO, making such a system potentially attractive for applications in superconducting ultrafast optoelectronics. The reproducibility of the values of the critical current densities measured in different devices with the same geometry makes our nanowires ideal candidates for photoresponse experiments. First measurements have shown a satisfactory photoresponse from YBCO=LSMO devices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.