9 research outputs found
Efficient entanglement length measurements for photonic cluster state sources
We present a procedure for confirming the generation of long strings of
photons in an entangled (cluster) state that does not rely on complete state
tomography and that works even at low collection efficiencies. The scheme has
the added advantage of being passive - it does not require switching of optical
elements to perform measurements in different bases for instance.Comment: 5 pages, 4 figure
Symmetry-protected phases for measurement-based quantum computation
Ground states of spin lattices can serve as a resource for measurement-based
quantum computation. Ideally, the ability to perform quantum gates via
measurements on such states would be insensitive to small variations in the
Hamiltonian. Here, we describe a class of symmetry-protected topological orders
in one-dimensional systems, any one of which ensures the perfect operation of
the identity gate. As a result, measurement-based quantum gates can be a robust
property of an entire phase in a quantum spin lattice, when protected by an
appropriate symmetry.Comment: 5 pages, 1 figure, comments welcome; v2 fixed minor typographic
errors; v3 published versio
Enhancement of two photon processes in quantum dots embedded in subwavelength metallic gratings
We show a large enhancement of two-photon absorption processes in nanocrystal
quantum dots and of light upconversion efficiency from the IR to the near-IR
spectral regime, using a hybrid optical device in which near-IR emitting InAs
quantum dots were embedded on top a metallic nanoslit array. The resonant
enhancement of these nonlinear optical processes is due to the strong local
electromagnetic field enhancements inside the nanoslit array structure at the
extraordinary transmission resonances. A maximal two-photon absorption
enhancement of more than 20 was inferred. Different high field regions were
identified for different polarizations, which can be used for designing and
optimizing efficient nonlinear processes in such hybrid structures. Combining
nanocrystal quantum dots with subwavelength metallic nanostructures is therfore
a promising way for a range of possible nonlinear optical devices.Comment: 14 pages, 7 figure
Polarization of nanodiamonds
A presentation on progress in ND polarization is given, demonstrating possible mechanisms of low-field polarization
Highly directional emission and photon beaming from nanocrystal quantum dots embedded in metallic nanoslit arrays
This paper has been withdrawn by the authors.Comment: This paper has been withdrawn by the author