363 research outputs found
Efficient out-coupling and beaming of Tamm optical states via surface plasmon polariton excitation
We present evidence of optical Tamm states to surface plasmon polariton (SPP) coupling. We experimentally demonstrate that for a Bragg stack with a thin metal layer on the surface, hybrid Tamm-SPP modes may be excited when a grating on the air-metal interface is introduced. Out-coupling via the grating to free space propagation is shown to enhance the transmission as well as the directionality and polarization selection for the transmitted beam. We suggest that this system will be useful on those devices, where a metallic electrical contact as well as beaming and polarization control is needed
Evidence of near-infrared partial photonic bandgap in polymeric rod-connected diamond structures
We present the simulation, fabrication, and optical characterization of
low-index polymeric rod-connected diamond (RCD) structures. Such complex
three-dimensional photonic crystal structures are created via direct laser
writing by two-photon polymerization. To our knowledge, this is the first
measurement at near-infrared wavelengths, showing partial photonic bandgaps for
this structure. We characterize structures in transmission and reflection using
angular resolved Fourier image spectroscopy to visualize the band structure.
Comparison of the numerical simulations of such structures with the
experimentally measured data show good agreement for both P- and
S-polarizations
Quantum modulation of a coherent state wavepacket with a single electron spin
The interaction of quantum objects lies at the heart of fundamental quantum
physics and is key to a wide range of quantum information technologies.
Photon-quantum-emitter interactions are among the most widely studied.
Two-qubit interactions are generally simplified into two quantum objects in
static well-defined states . In this work we explore a fundamentally new
dynamic type of spin-photon interaction. We demonstrate modulation of a
coherent narrowband wavepacket with another truly quantum object, a quantum dot
with ground state spin degree of freedom. What results is a quantum modulation
of the wavepacket phase (either 0 or {\pi} but no values in between), a new
quantum state of light that cannot be described classically.Comment: Supplementary Information available on reques
Atomic-scale confinement of optical fields
In the presence of matter there is no fundamental limit preventing
confinement of visible light even down to atomic scales. Achieving such
confinement and the corresponding intensity enhancement inevitably requires
simultaneous control over atomic-scale details of material structures and over
the optical modes that such structures support. By means of self-assembly we
have obtained side-by-side aligned gold nanorod dimers with robust
atomically-defined gaps reaching below 0.5 nm. The existence of
atomically-confined light fields in these gaps is demonstrated by observing
extreme Coulomb splitting of corresponding symmetric and anti-symmetric dimer
eigenmodes of more than 800 meV in white-light scattering experiments. Our
results open new perspectives for atomically-resolved spectroscopic imaging,
deeply nonlinear optics, ultra-sensing, cavity optomechanics as well as for the
realization of novel quantum-optical devices
Regional foreign direct investment and wage spillovers:plant level evidence from the UK electronics industry
This paper examines the extent to which foreign investment in the UK generates wage spillovers in the domestic sector of the economy using a simultaneous dynamic panel data model and focusing on the electronics sector, possibly the most ‘globalized’ sector of UK manufacturing. It finds evidence that the higher wages paid by foreign firms cause wages in the domestic sector to be bid up. This phenomenon is, however, largely confined to the region where foreign direct investment takes place
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