5,678 research outputs found
Fire safety in buildings
Many buildings, in many countries, throughout the world have substandard fire safety features. This discussion is restricted to hotels and hostels, which are often the only types of buildings readily accessible by visitors to a country. It attempts to explore some of the difficulties in that many building regulatory agents in some countries are not ensuring all buildings are safe from fire. It recommends that in the absence of fully safe buildings from the statutory approval process, private consortia of building owners should be initiating their own safety checklists
Composite oscillator systems for meeting user needs for time and frequency
Frequency standards are used in most navigation and telecommunications systems to provide a long term memory of either frequency, phase, or time epoch. From a systems point of view, the performance aspects of the frequency standard are weighed against other systems characteristics, such as overall performance, cost, size, and accessibility; a number of examples are very briefly reviewed. The theory of phase lock and frequency lock systems is outlined in sufficient detail that total oscillator system performance can be predicted from measurements on the individual components. As an example, details of the performance of a high spectral purity oscillator phase locked to a long term stable oscillator are given. Results for several systems, including the best system stability that can be obtained from present commercially available 5-MHz sources, are shown
Distributing fully optomechanical quantum correlations
We present a scheme to prepare quantum correlated states of two mechanical
systems based on the pouring of pre-available all-optical entanglement into the
state of two micro-mirrors belonging to remote and non-interacting
optomechanical cavities. We show that, under realistic experimental conditions,
the protocol allows for the preparation of a genuine quantum state of a
composite mesoscopic system whose non-classical features extend far beyond the
occurrence of entanglement. We finally discuss a way to access such mechanical
correlations.Comment: 5 pages, 4 figures, to appear in Physical Review
Optical wavelength conversion of quantum states with optomechanics
An optomechanical interface that converts quantum states between optical
fields with distinct wavelengths is proposed. A mechanical mode couples to two
optical modes via radiation pressure and mediates the quantum state mapping
between the two optical modes. A sequence of optomechanical pulses
enables state-swapping between optical and mechanical states as well as the
cooling of the mechanical mode. Theoretical analysis shows that high fidelity
conversion can be realized for states with small photon numbers in systems with
experimentally achievable parameters. The pulsed conversion process also makes
it possible to maintain high conversion fidelity at elevated bath temperatures.Comment: 4 pages, 4 figures, Fig. 4 looks weird (possible latex style problem
Implementation of controlled SWAP gates for quantum fingerprinting and photonic quantum computation
We propose a scheme to implement quantum controlled SWAP gates by directing
single-photon pulses to a two-sided cavity with a single trapped atom. The
resultant gates can be used to realize quantum fingerprinting and universal
photonic quantum computation. The performance of the scheme is characterized
under realistic experimental noise with the requirements well within the reach
of the current technology.Comment: 4 page
Measurements of the short-term stability of quartz crystal resonators: A window on future developments in crystal oscillators
Recent measurements of the inherent short-term stability of quartz crystal resonators are presented. These measurements show that quartz resonators are much more stable for times less than 1s than the best available commercial quartz oscillators. A simple model appears to explain the noise mechanism in crystal controlled oscillators and points the way to design changes which should permit more than 2 orders of magnitude improvement in their short-term stability. Calculations show that a reference signal at 1 THz, derived from frequency multiplying a 5 MHz source with the above measured crystal stability, should have an instantaneous or fast linewidth of order 1 Hz. These calculations explicitly include the noise contribution of our present multiplier chains and are briefly outlined
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