454 research outputs found
Quantum digital spiral imaging
We demonstrate that the combination of digital spiral imaging with high-dimensional orbital angular momentum (OAM) entanglement can be used for efficiently probing and identifying pure phase objects, where the probing light does not necessarily touch the object, via the experimental, non-local decomposition of non-integer pure phase vortices in OAM-entangled photon pairs. The entangled photons are generated by parametric downconversion and then measured with spatial light modulators and single-mode fibers. The fractional phase vortices are defined in the idler photons, while their corresponding spiral spectra are obtained non-locally by scanning the measured OAM states in the signal photons. We conceptually illustrate our results with the biphoton Klyshko picture and the effective dimensionality to demonstrate the high-dimensional nature of the associated quantum OAM channels. Our result is a proof of concept that quantum imaging techniques exploiting high-dimensional entanglement can potentially be used for remote sensing
The algebraic multiplicity of the spectral radius of a hypertree
It is well-known that the spectral radius of a connected uniform hypergraph
is an eigenvalue of the hypergraph. However, its algebraic multiplicity remains
unknown. In this paper, we use the Poisson Formula and matching polynomials to
determine the algebraic multiplicity of the spectral radius of a uniform
hypertree
Making and identifying optical superposition of very high orbital angular momenta
We report the experimental preparation of optical superpositions of high
orbital angular momenta(OAM). Our method is based on the use of spatial light
modulator to modify the standard Laguerre-Gaussian beams to bear excessive
phase helices. We demonstrate the surprising performance of a traditional
Mach-Zehnder interferometer with one inserted Dove prism to identify these
superposed twisted lights, where the high OAM numbers as well as their possible
superpositions can be inferred directly from the interfered bright multiring
lattices. The possibility of present scheme working at photon-count level is
also shown using an electron multiplier CCD camera. Our results hold promise in
high-dimensional quantum information applications when high quanta are
beneficial.Comment: Submitted for publication consideration (4 figures
Polarization Entanglement from Parametric Down-Conversion with a LED Pump
Spontaneous parametric down-conversion (SPDC) is a reliable platform for
entanglement generation. Routinely, a coherent laser beam is an essential
prerequisite for pumping the nonlinear crystal. Here we break this barrier to
generate polarization entangled photon pairs by using a commercial
light-emitting diode (LED) source to serve as the pump beam. This effect is
counterintuitive, as the LED source is of extremely low spatial coherence,
which is transferred during the down-conversion process to the biphoton
wavefunction. However, the type-II phase-matching condition naturally filters
the specific frequency and wavelength of LED light exclusively to participate
in SPDC such that localized polarization Bell states can be generated,
regardless of the global incoherence over the full transverse plane. In our
experiment, we characterize the degree of LED light-induced polarization
entanglement in the standard framework of the violation of Bell inequality. We
have achieved the Bell value , obviously surpassing the
classical bound and thus witnessing the quantum entanglement. Our work
can be extended to prepare polarization entanglement by using other natural
light sources, such as sunlight and bio-light, which holds promise for
electricity-free quantum communications in outer space
R&D subsidies, executive background and innovation of Chinese listed companies
Enterprises are the mainstay of national innovation. The improvement of enterprise productivity and the sustained and rapid
development of the economy are inseparable from the research
and development (R&D) and innovation of enterprises. Most previous research studies have focused on the economic system and
scale of enterprises to study the impact of government–enterprise
relations on corporate innovation. This article takes the heterogeneity background characteristics of executives as the starting
point, discusses the internal mechanism of R&D subsidies, the
background characteristics of corporate executives and the
innovative behaviour of Chinese listed companies, and draws two
conclusions: (1) The current Chinese government’s innovation
subsidy allocation process still has some preferences, such as the
company’s executives have more R&D subsidies for listed companies with a background in government, technical background and
high academic background; and (2) Although the three types of
background characteristics of executives are beneficial to the
company’s R&D subsidies, the government background of executives has not significantly promoted the innovation of listed companies, while the background of technology R&D and high
academic background of executives have significantly promoted
corporate innovation
Coherent categorical information triggers integration-related alpha dynamics
To create coherent visual experiences, the brain spatially integrates the complex and dynamic information it receives from the environment. We previously demonstrated that feedback-related alpha activity carries stimulus-specific information when two spatially and temporally coherent naturalistic inputs can be integrated into a unified percept. In this study, we sought to determine whether such integration-related alpha dynamics are triggered by categorical coherence in visual inputs. In an EEG experiment, we manipulated the degree of coherence by presenting pairs of videos from the same or different categories through two apertures in the left and right visual hemifields. Critically, video pairs could be video-level coherent (i.e., stem from the same video), coherent in their basic-level category, coherent in their superordinate category, or incoherent (i.e., stem from videos from two entirely different categories). We conducted multivariate classification analyses on rhythmic EEG responses to decode between the video stimuli in each condition. As the key result, we significantly decoded the video-level coherent and basic-level coherent stimuli, but not the superordinate coherent and incoherent stimuli, from cortical alpha rhythms. This suggests that alpha dynamics play a critical role in integrating information across space, and that cortical integration processes are flexible enough to accommodate information from different exemplars of the same basic-level category.
NEW & NOTEWORTHY Our brain integrates dynamic inputs across the visual field to create coherent visual experiences. Such integration processes have previously been linked to cortical alpha dynamics. In this study, the integration-related alpha activity was observed not only when snippets from the same video were presented, but also when different video snippets from the same basic-level category were presented, highlighting the flexibility of neural integration processes
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