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The Bekenstein bound limits the amount of information that can be stored within a volume of space. The maximal rate of change of information within that volume of space is given by the quantum speed limit. This product of limits is sometimes called the Bremermann–Bekenstein limit; it is saturated by Hawking radiation. [1]
The GY6 engine design is a four-stroke single-cylinder in a near-horizontal orientation that is used on a number of small motorcycles or scooters ... Scooters 50cc ...
The early models had some resemblance to Honda's C50/70/90 Super Cub range with a similar shape, dual seat and rear carrier, but with a scooter type floor, unlike the P series of mopeds such as the Honda PC50 or the Honda Express N series, which had cycle style construction. The SH50 was also known as the City Express and in some markets, as ...
Scooter: Engine: 49.38 cc (several different engines used) Top speed: 45-50 km/h restricted, up to 85-90 km/h derestricted. Optional gear up kits available, they can lift the maximum speed up to 130 km/h. Transmission: CVT: Suspension: Front telescopic fork, rear hydraulic monoshock: Brakes: 190mm disks front and rear: Tires: 13" wheels 130/60 ...
In quantum information theory, superdense coding (also referred to as dense coding) is a quantum communication protocol to communicate a number of classical bits of information by only transmitting a smaller number of qubits, under the assumption of sender and receiver pre-sharing an entangled resource.
Quantum sensing also has the capability to overcome resolution limits, where current issues of vanishing distinguishability between two close frequencies can be overcome by making the projection noise vanish. [25] [26] The diminishing projection noise has direct applications in communication protocols and nano-Nuclear Magnetic Resonance. [27] [28]
where = / is a control parameter known as effective offset charge (is the gate voltage), and the Josephson energy of the tunneling junction. At low temperature and low gate voltage, one can limit the analysis to only the lowest n = 0 {\displaystyle n=0} and n = 1 {\displaystyle n=1} states, and therefore obtain a two-level quantum system (a.k.a ...
In quantum computing, Mølmer–Sørensen gate scheme (or MS gate) refers to an implementation procedure for various multi-qubit quantum logic gates used mostly in trapped ion quantum computing. This procedure is based on the original proposition by Klaus Mølmer and Anders Sørensen in 1999–2000.