Add to ORKGQuantum key distribution is on the verge of real world applications, where perfectly secure information can be distributed among multiple parties. Several quantum cryptographic protocols have been theoretically proposed and independently realized in different experimental conditions. Here, we develop an experimental platform based on high-dimensional orbital angular momentum states of single photons that enables implementation of multiple quantum key distribution protocols with a single experimental apparatus. Our versatile approach allows us to experimentally survey different classes of quantum key distribution techniques, such as the 1984 Bennett & Brassard (BB84), tomographic protocols including the six-state and the Singapore protocol, ...
We propose a high-dimensional quantum key distribution (QKD) protocol that employs temporal correlat...
In this work, we represent the principle of quantum cryptography (QC) that is based on fundamental l...
This note presents a method of public key distribution using quantum communication of n photons that...
Quantum key distribution is on the verge of real world applications, where perfectly secure informat...
We experimentally demonstrate a quantum cryptography system based on photonic orbital angular moment...
We experimentally demonstrate a quantum cryptography system based on photonic orbital angular moment...
We present an experimental study of higher-dimensional quantum key distribution protocols based on m...
The secure transfer of information is an important problem in modern telecommunications. Quantum key...
The orbital angular momentum carried by single photons represents a promising resource in the quantu...
“Twisted photons” are photons carrying a well-defined nonzero value of orbital angular momentum (OAM...
The secure distribution of the secret random bit sequences known as key material, is an essential pr...
Quantumkey distribution (QKD) systems often rely on polarization of light for encoding, thus limitin...
We discuss a simple experiment illustrating the fundamentals of quantum cryptography. Our experiment...
This doctoral thesis summarizes research in quantum cryptography done at the Department of Electroni...
The secure distribution of the secret random bit sequences known as {open_quotes}key{close_quotes} m...
We propose a high-dimensional quantum key distribution (QKD) protocol that employs temporal correlat...
In this work, we represent the principle of quantum cryptography (QC) that is based on fundamental l...
This note presents a method of public key distribution using quantum communication of n photons that...
Quantum key distribution is on the verge of real world applications, where perfectly secure informat...
We experimentally demonstrate a quantum cryptography system based on photonic orbital angular moment...
We experimentally demonstrate a quantum cryptography system based on photonic orbital angular moment...
We present an experimental study of higher-dimensional quantum key distribution protocols based on m...
The secure transfer of information is an important problem in modern telecommunications. Quantum key...
The orbital angular momentum carried by single photons represents a promising resource in the quantu...
“Twisted photons” are photons carrying a well-defined nonzero value of orbital angular momentum (OAM...
The secure distribution of the secret random bit sequences known as key material, is an essential pr...
Quantumkey distribution (QKD) systems often rely on polarization of light for encoding, thus limitin...
We discuss a simple experiment illustrating the fundamentals of quantum cryptography. Our experiment...
This doctoral thesis summarizes research in quantum cryptography done at the Department of Electroni...
The secure distribution of the secret random bit sequences known as {open_quotes}key{close_quotes} m...
We propose a high-dimensional quantum key distribution (QKD) protocol that employs temporal correlat...
In this work, we represent the principle of quantum cryptography (QC) that is based on fundamental l...
This note presents a method of public key distribution using quantum communication of n photons that...
