Adrian Ortega is a postdoctoral researcher in the Wigner Research Centre for Physics (WRCP). He received his MSc in 2012 and PhD in 2017 from Universidad Nacional Autonoma de Mexico (UNAM), Mexico. He held a postdoctoral position at Universidad de Guadalajara, Mexico. In his PhD research, together with his collaborators at UNAM, showed that Efficient Quantum Transport (as in photosynthetic complexes) of one particle quantum systems is enhanced if many-body interactions and centrosymmetry is present in the system. In Guadalajara, he participated in the introduction of a novel model that combines quantum walks and quantum chaos. He also has done research in PT-symmetric systems and quantum transport. At WRCP he works in the implementation of nonlinear protocols in realistic quantum computers.
Selected publications:
Quantum transport in a combined kicked rotor and quantum walk system
A Ortega, T Gorin, C S Hamilton
Physics Letters A 395, 127224 (2021)
Spectral and transport properties of a PT-symmetric tight-binding chain with gain and loss
A Ortega, T Stegmann, L Benet, H Larralde
Journal of Physics A: Mathematical and Theoretical 53, 445308 (2020)
Two-particle quantum correlations in stochastically-coupled networks
R J León-Montiel, V Méndez, M A Quiroz-Juárez, A Ortega, L Benet, A Perez-Lejía, K Busch
New Journal of Physics 21, 053041 (2019)
Robustness of optimal transport in disordered interacting many-body networks
A Ortega, T Stegmann, L Benet
Physical Review E 98, 012141 (2018)
Efficient quantum transport in disordered interacting many-body networks
A Ortega, T Stegmann, L Benet
Physical Review E 94, 042102 (2016)