1. A.J. Kreisler, R.G. Ladret, X. Galiano & A.F. Dégardin, “Versatility of Y-Ba-Cu-O oxides: Cooled superconducting and uncooled semiconducting IR/THz detectors,” IEEE Proc. DOI: 10.1109/IRMMW-THz.2016.7758640 (2016).
  2. R.G. Ladret, A.F. Dégardin & A.J. Kreisler, “YBaCuO HEB hot-spot model with non-uniform RF power: absorption: THz mixing frequency-dependent performance,” IEEE ProcDOI: 10.1109/IRMMW-THz.2015.7327695 (2015).
  3. R. Ladret, A.J. Kreisler & A.F. Dégardin, “YBCO-Constriction Hot Spot Modeling: DC and RF Descriptions for HEB THz Mixer Noise Temperature and Conversion Gain,” IEEE Trans. Appl. Supercond. 25 (3), p. 2300505 (2015).
  4. R.G. Ladret, A.J. Kreisler & A.F. Dégardin, “High-Tc micro and nano-constriction modelling: hot spot approach for DC characteristics and HEB THz mixer performance,” J. Phys.: Conf. Ser. 507, p. 042020 (2014).
  5. R. Ladret, A.J. Kreisler, A.F. Dégardin, "Terahertz superconducting hot electron bolometers: technological issues and predicted mixer performance for Y-Ba-Cu-O devices", SPIE Proc. 9252, pp. 92520RD-1/12 (2014).
  6. I. Türer, A. Dégardin, A. Kreisler “UWB antennas for CW terahertz imaging: geometry choice criteria,” in Ultra-Wideband Short-Pulse Electromagnetics 10, F. Sabath & E.L. Mokole (eds.), Springer (2014).
  7. R.G. Ladret, A.J. Kreisler & A.F. Dégardin, “Superconducting high-Tc hot electron bolometers used as THz mixers: predicted performance by hot spot modeling,” IEEE Proc. DOI: 10.1109/IRMMW-THz.2013.6665541 (2013).
  8. J. Trastoy, V. Rouce, C. Ulyssse, R. Bernard, A. Palau, T. Puig, G. Faini, J. Lesueur, J. Briatico, J.E. Villegas, "Unusual anisotropic magneto-transport and critical behaviour of high-temperature superconducting films with nanoscale periodic pinning," New Journal of Physics 15, p. 103022 (2013).
  9. R. G. Ladret, A. F. Dégardin & A. J. Kreisler, "Nano-patterning and hot spot modeling of YBCO ultrathin film constrictions for THz mixers," IEEE Trans. Appl. Supercond. 23(3), p. 23003305 (2013).