Andrew Cupo
YOU?
Author Swipe
View article: Floquet engineering clock transitions in magnetic molecules
Floquet engineering clock transitions in magnetic molecules Open
We theoretically study Floquet engineering of magnetic molecules via a time-periodic magnetic field that couples to the emergent total electronic spin of the metal center. By focusing on the low-lying energy levels using an S = 1 spin Hami…
View article: Optical Conductivity Signatures of Floquet Electronic Phases
Optical Conductivity Signatures of Floquet Electronic Phases Open
Optical conductivity measurements may provide access to distinct signatures of Floquet electronic phases, which are described theoretically by their quasienergy band structures. We characterize experimental observables of the Floquet graph…
View article: Floquet graphene antidot lattices
Floquet graphene antidot lattices Open
We establish the theoretical foundation of the Floquet graphene antidot lattice, whereby massless Dirac fermions are driven periodically by a circularly polarized electromagnetic field, while having their motion excluded from an array of n…
View article: Theoretical analysis of spectral lineshapes from molecular dynamics
Theoretical analysis of spectral lineshapes from molecular dynamics Open
Conventional methods for calculating anharmonic phonon properties are computationally expensive. To address this issue, a theoretical approach was developed for the accelerated calculation of vibrational lineshapes for spectra obtained fro…
View article: An unexpected organometallic intermediate in surface-confined Ullmann coupling
An unexpected organometallic intermediate in surface-confined Ullmann coupling Open
Poly(para-phenylene) obtained by a three-step Ullmann coupling: two distinct 1D and 2D organometallic phases are reported.
View article: Periodic Arrays of Phosphorene Nanopores as Antidot Lattices with Tunable Properties
Periodic Arrays of Phosphorene Nanopores as Antidot Lattices with Tunable Properties Open
A tunable band gap in phosphorene extends its applicability in nanoelectronic and optoelectronic applications. Here, we propose to tune the band gap in phosphorene by patterning antidot lattices, which are periodic arrays of holes or nanop…
View article: Controlled Sculpture of Black Phosphorus Nanoribbons
Controlled Sculpture of Black Phosphorus Nanoribbons Open
Black phosphorus (BP) is a highly anisotropic allotrope of phosphorus with great promise for fast functional electronics and optoelectronics. We demonstrate the controlled structural modification of few-layer BP along arbitrary crystal dir…