Add to ORKGScanning probe techniques can be used to probe electronic properties at the nanoscale, to shed light on the physics of nanoscale devices: Graphene is of great interest for its promise in both applied (e.g. spintronics and valleytronics) and fundamental research (e.g. quantum Hall and Dirac fermions). We successfully used a cooled scanning gate microscope to image the motion of electrons along cyclotron orbits for magnetic focusing in graphene. Part of my time at Harvard was also spent incorporating a low temperature scanning capacitance setup into the existing microscope as well as building a low temperature coarse positioning system. To image magnetic focusing of electrons in graphene, a conducting tip of a scanned probe microscope is he...
Nanoscale electronic transport gives rise to a number of intriguing physical phenomena that are acco...
| openaire: EC/H2020/785219/EU//GrapheneCore2We present scanning gate microscopy (SGM) studies of gr...
Among the exotic properties of Dirac excitations in graphene, Klein tunneling appears to be a remark...
A cooled scanning probe microscope (SPM) is an ideal tool to image electronic motion in graphene: th...
We have used cooled scanning probe microscopy (SPM) to study electron motion in nanoscale devices. T...
Electrons in graphene can travel for several microns without scattering at low temperatures, and the...
Electrons in graphene can travel for several microns without scattering at low temperatures, and the...
This thesis presents several experiments, generally aiming at visualising the ballistic and topologi...
We use scanning gate microscopy to map out the trajectories of ballistic carriers in high-mobility g...
175 pagesGraphene is a material consisting of a single layer of carbon atoms, with distinctive elect...
We use scanning gate microscopy to map out the trajectories of ballistic carriers in high-mobility g...
In graphene, charge carriers behave as massless (Dirac) fermions, yielding unprecedented electrical ...
We have performed scanning gate microscopy (SGM) on graphene field effect transistors (GFET) using a...
We report on nanometer magnetic imaging of two-dimensional current flow in bilayer graphene devices ...
Author's final manuscript January 9, 2013Electrons in a periodic lattice can propagate without scatt...
Nanoscale electronic transport gives rise to a number of intriguing physical phenomena that are acco...
| openaire: EC/H2020/785219/EU//GrapheneCore2We present scanning gate microscopy (SGM) studies of gr...
Among the exotic properties of Dirac excitations in graphene, Klein tunneling appears to be a remark...
A cooled scanning probe microscope (SPM) is an ideal tool to image electronic motion in graphene: th...
We have used cooled scanning probe microscopy (SPM) to study electron motion in nanoscale devices. T...
Electrons in graphene can travel for several microns without scattering at low temperatures, and the...
Electrons in graphene can travel for several microns without scattering at low temperatures, and the...
This thesis presents several experiments, generally aiming at visualising the ballistic and topologi...
We use scanning gate microscopy to map out the trajectories of ballistic carriers in high-mobility g...
175 pagesGraphene is a material consisting of a single layer of carbon atoms, with distinctive elect...
We use scanning gate microscopy to map out the trajectories of ballistic carriers in high-mobility g...
In graphene, charge carriers behave as massless (Dirac) fermions, yielding unprecedented electrical ...
We have performed scanning gate microscopy (SGM) on graphene field effect transistors (GFET) using a...
We report on nanometer magnetic imaging of two-dimensional current flow in bilayer graphene devices ...
Author's final manuscript January 9, 2013Electrons in a periodic lattice can propagate without scatt...
Nanoscale electronic transport gives rise to a number of intriguing physical phenomena that are acco...
| openaire: EC/H2020/785219/EU//GrapheneCore2We present scanning gate microscopy (SGM) studies of gr...
Among the exotic properties of Dirac excitations in graphene, Klein tunneling appears to be a remark...