60 research outputs found
Attosecond Precision Multi-km Laser-Microwave Network
Synchronous laser-microwave networks delivering attosecond timing precision
are highly desirable in many advanced applications, such as geodesy,
very-long-baseline interferometry, high-precision navigation and
multi-telescope arrays. In particular, rapidly expanding photon science
facilities like X-ray free-electron lasers and intense laser beamlines require
system-wide attosecond-level synchronization of dozens of optical and microwave
signals up to kilometer distances. Once equipped with such precision, these
facilities will initiate radically new science by shedding light on molecular
and atomic processes happening on the attosecond timescale, such as
intramolecular charge transfer, Auger processes and their impact on X-ray
imaging. Here, we present for the first time a complete synchronous
laser-microwave network with attosecond precision, which is achieved through
new metrological devices and careful balancing of fiber nonlinearities and
fundamental noise contributions. We demonstrate timing stabilization of a
4.7-km fiber network and remote optical-optical synchronization across a 3.5-km
fiber link with an overall timing jitter of 580 and 680 attoseconds RMS,
respectively, for over 40 hours. Ultimately we realize a complete
laser-microwave network with 950-attosecond timing jitter for 18 hours. This
work can enable next-generation attosecond photon-science facilities to
revolutionize many research fields from structural biology to material science
and chemistry to fundamental physics.Comment: 42 pages, 13 figure
The Implication of Cultural Diversity in American Schools
The purpose of this article is to analyze the major factors responsible for the cultural diversity in America and their implications for professional educators. These factors include immigration, communication, linguistic diversity, cultural values, and desegregation. While some educators look to the demographics of the new student population, others consider historical clues as a method of understanding American diversity. Statistics about school achievement and dropout and graduation rates show the disparity among the ethnic groups. The new immigrants and ethnic groups may experience conflict as a result of cultural attitudes of teachers and peers. Individuals cannot be understood unless they are seen against the cultural history from which they have come and in terms of the situation in which they currently live. Because of the diversity in the American population, educators need to be sensitive to the cultural elements that may affect students\u27 performance and self-esteem
Nanostructured silicon photo-cathodes for x-ray generation
We report the fabrication and characterization of ultrafast laser triggered nanostructured silicon photo-cathodes for x-ray generation via inverse Compton scattering. A highly uniform array of ~2200 silicon pillars with 5 μm array pitch, where each pillar is capped by a nanosharp tip, shows stable current emission using 35 fs, 800 nm laser pulses. The cathodes can emit at 3.6 nA average current over 8-million 1.2 pC electron bunches when excited with 9.5 μJ laser pulses with no degradation of the emission characteristic of the cathode, showing that silicon-based photon-triggered cathodes processed with standard CMOS processes and operated at high vacuum can function for extended periods without performance degradation
High-density Au nanorod optical field-emitter arrays
We demonstrate the design, fabrication, characterization, and operation of high-density arrays of Au nanorod electron emitters, fabricated by high-resolution electron beam lithography, and excited by ultrafast femtosecond near-infrared radiation. Electron emission characteristic of multiphoton absorption has been observed at low laser fluence, as indicated by the power-law scaling of emission current with applied optical power. The onset of space-charge-limited current and strong optical field emission has been investigated so as to determine the mechanism of electron emission at high incident laser fluence. Laser-induced structural damage has been observed at applied optical fields above 5 GV m[superscript −1], and energy spectra of emitted electrons have been measured using an electron time-of-flight spectrometer.United States. Defense Advanced Research Projects Agency (Contract N66001-11-1-4192)Gordon and Betty Moore Foundatio
Phase transitions and the internal noise structure of nonlinear Schr\"odi nger equation solitons
We predict phase-transitions in the quantum noise characteristics of systems
described by the quantum nonlinear Schr\"odinger equation, showing them to be
related to the solitonic field transition at half the fundamental soliton
amplitude. These phase-transitions are robust with respect to Raman noise and
scattering losses. We also describe the rich internal quantum noise structure
of the solitonic fields in the vicinity of the phase-transition. For optical
coherent quantum solitons, this leads to the prediction that eliminating the
peak side-band noise due to the electronic nonlinearity of silica fiber by
spectral filtering leads to the optimal photon-number noise reduction of a
fundamental soliton.Comment: 10 pages, 5 figure
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Optical Clockwork without Carrier-Envelope Phase Control
We demonstrate optical clockwork without carrier-envelope phase control using sum-frequency generation between a cw optical parametric oscillator at 3.39 μm and a mode-locked Ti:sapphire laser with dominant spectral peaks at 834 nm and 670 nm
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Experimental Implementation of Optical Clockwork without Carrier-Envelope Phase Control
We demonstrate an optical clockwork without camer-envelope phase control using sum-frequency generation between a CW optical parametric oscillator at 3.39 μm and a modelocked Tisapphire laser with dominant spectral peaks at 834 and 670 nm
High-energy mid-infrared sub-cycle pulse synthesis from a parametric amplifier
High-energy phase-stable sub-cycle mid-infrared pulses can provide unique opportunities to explore phase-sensitive strong-field light-matter interactions in atoms, molecules and solids. At the mid-infrared wavelength, the Keldysh parameter could be much smaller than unity even at relatively modest laser intensities, enabling the study of the strong-field sub-cycle electron dynamics in solids without damage. Here we report a high-energy sub-cycle pulse synthesiser based on a mid-infrared optical parametric amplifier and its application to high-harmonic generation in solids. The signal and idler combined spectrum spans from 2.5 to 9.0 μm. We coherently synthesise the passively carrier-envelope phase-stable signal and idler pulses to generate 33 μJ, 0.88-cycle, multi-gigawatt pulses centred at ~4.2 μm, which is further energy scalable. The mid-infrared sub-cycle pulse is used for driving high-harmonic generation in thin silicon samples, producing harmonics up to ~19th order with a continuous spectral coverage due to the isolated emission by the sub-cycle driver
Status and Objectives of the Dedicated Accelerator R&D Facility "SINBAD" at DESY
We present a status update on the dedicated R\&D facility SINBAD which is
currently under construction at DESY. The facility will host multiple
independent experiments on the acceleration of ultra-short electron bunches and
novel, high gradient acceleration methods. The first experiment is the
ARES-experiment with a normal conducting 100\,MeV S-band linac at its core. We
present the objectives of this experiment ranging from the study of compression
techniques to sub-fs level to its application as injector for various advanced
acceleration schemes e.g. the plans to use ARES as a test-site for DLA
experiments in the context of the ACHIP collaboration. The time-line including
the planned extension with laser driven plasma-wakefield acceleration is
presented. The second initial experiment is AXSIS which aims to accelerate
fs-electron bunches to 15\,MeV in a THz driven dielectric structure and
subsequently create X-rays by inverse Compton scattering.Comment: EAAC'17 conference proceeding
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