Publications: Difference between revisions
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Patrizia Rosa, Davide Sangalli, Giovanni Onida, Alberto Debernardi | Patrizia Rosa, Davide Sangalli, Giovanni Onida, Alberto Debernardi | ||
Phys. Rev. B 91, 075207 (2015) | Phys. Rev. B 91, 075207 (2015) | ||
Graphene Homojunction: Closed-edge Bilayer Graphene by Pseudospin Interaction | |||
J YAN, C Li, D Zhan, D Shen, JL Kuo, S Chen, Z Shen - Nanoscale, 2016 | |||
Depending on the sublattices they propagate, the low-energy electrons or holes are labeled | |||
with pseudospins. By engineering the pseudospin interaction, we propose that two critical | |||
features of a junction, ie bandgap opening and spatial charge separation can be realized ... | |||
Revision as of 11:54, 12 January 2016
Early oxidation stages of the strained Ge/Si(105) surface: A reflectance anisotropy spectroscopy study Claudio Goletti, Laura Fazi, Conor Hogan, Luca Persichetti, Anna Sgarlata, Maurizia Palummo and Adalberto Balzarotti Physica Status Solidi B 252, 87 (2015). Publisher
Ab initio electronic structure, optical, and magneto-optical properties of MnGaAs digital ferromagnetic heterostructures Patrizia Rosa, Davide Sangalli, Giovanni Onida, Alberto Debernardi Phys. Rev. B 91, 075207 (2015)
Graphene Homojunction: Closed-edge Bilayer Graphene by Pseudospin Interaction J YAN, C Li, D Zhan, D Shen, JL Kuo, S Chen, Z Shen - Nanoscale, 2016 Depending on the sublattices they propagate, the low-energy electrons or holes are labeled with pseudospins. By engineering the pseudospin interaction, we propose that two critical features of a junction, ie bandgap opening and spatial charge separation can be realized ...