We present a simple approach to realize truly random number generator based on measuring the phase noise of a single-mode vertical cavity surface emitting laser. The true randomness of the quantum phase noise originates from the spontaneous emission of photons and the random bit generation rate is ultimately limited only by the laser linewidth. With the final bit generation rate of 20 Mbit/s, the truly random bit sequence guaranteed by the uncertainty principle of quantum mechanics passes the three standard randomness tests (ENT, Diehard, and NIST Statistical Test Suites). Moreover, a continuously generated random bit sequence, with length up to 14 Gbit, is verified by two additional criteria for its true randomness.SCI(E)PubMed0ARTICLE5 Pt...
We propose and implement a simple quantum random number generation (QRNG) scheme based on the quantu...
Random numbers are widely used for information security, cryptography, stochastic modeling, and quan...
Random number generators in digital information systems exploit physical entropy sources, such as el...
We present a simple approach to realize truly random number generator based on measuring the phase n...
We present a true random number generator with the high generation rate of 80 Mbit/s, based on the m...
We present a true random number generator with the high generation rate of 80 Mbit/s, based on the m...
In 2010 Qi et al. [Opt. Lett. 35(3), 312 (2010)] demonstrated a random number generator based on the...
We present a random number generation scheme based on measuring the phase fluctuations of a laser wi...
Theoretical design and experimental demonstration of a random number generator based on the random i...
We demonstrate robust, high-speed random number generation using interference of the steady-state em...
We propose what we believe to be a new approach to nondeterministic random-number generation. The ra...
Random number sequences are a critical resource in a wide variety of information systems, including ...
Based on the random photon emission of laser diode, we propose a new approach for true random number...
Physics and simulation of optoelectronic devices 20 : 23-26 January 2012 : San Francisco, California...
The Nd:YAG laser is a solid state laser that has many applications in the industry, science and medi...
We propose and implement a simple quantum random number generation (QRNG) scheme based on the quantu...
Random numbers are widely used for information security, cryptography, stochastic modeling, and quan...
Random number generators in digital information systems exploit physical entropy sources, such as el...
We present a simple approach to realize truly random number generator based on measuring the phase n...
We present a true random number generator with the high generation rate of 80 Mbit/s, based on the m...
We present a true random number generator with the high generation rate of 80 Mbit/s, based on the m...
In 2010 Qi et al. [Opt. Lett. 35(3), 312 (2010)] demonstrated a random number generator based on the...
We present a random number generation scheme based on measuring the phase fluctuations of a laser wi...
Theoretical design and experimental demonstration of a random number generator based on the random i...
We demonstrate robust, high-speed random number generation using interference of the steady-state em...
We propose what we believe to be a new approach to nondeterministic random-number generation. The ra...
Random number sequences are a critical resource in a wide variety of information systems, including ...
Based on the random photon emission of laser diode, we propose a new approach for true random number...
Physics and simulation of optoelectronic devices 20 : 23-26 January 2012 : San Francisco, California...
The Nd:YAG laser is a solid state laser that has many applications in the industry, science and medi...
We propose and implement a simple quantum random number generation (QRNG) scheme based on the quantu...
Random numbers are widely used for information security, cryptography, stochastic modeling, and quan...
Random number generators in digital information systems exploit physical entropy sources, such as el...