Now Open for Submissions: Advanced Quantum Technologies – From Basic Quantum Science to Future-Oriented Technological Applications

Welcome to our journal Advanced Quantum Technologies, the newest member of the Advanced family – intended to cover prime achievements in quantum science and technology for a broad and diverse international community, and to support intense global research activities in the field.

Following the success of Advanced Materials and our top Open Access journal Advanced Science (Impact Factor of 19.791 and 9.034, respectively, as per 2017 Journal Citation Reports), Advanced Quantum Technologies intends to cover prime achievements in quantum science and technology for a broad and diverse international community, and to support intense global research activities in the field.

We are now accepting submissions and our first issue is scheduled for publication in early 2018.

Advanced Quantum Technologies is an international, interdisciplinary journal for peer-reviewed, high-quality, high-impact theoretical and experimental research in the fields of basic and application-related quantum-based communication, computation, control, engineering, information, metrology, optics, sensing and simulation, as well as related areas such as nanophotonics, quasiparticle excitations, topological materials, superconductors, micro- and nano-electromechanical systems, ultracold atoms and others.

Our readership will include physicists, engineers, mathematicians, materials and computer scientists in academia, research, start-ups and industry.

The experienced editorial team based at the Wiley offices in Berlin, Beijing and Hoboken is supported by an international Editorial Advisory Board currently with 42 members.

Articles can be submitted for consideration using our online submission system:

For more information, please visit the Wiley Online Library, or contact the editorial office: [email protected]


Bose-Einstein condensation
Casimir forces
cavity quantum electrodynamics
cellular automata
complex quantum systems
Dirac fermions
Dirac semimetals
dynamic quantum order
electronic states
entangled quantum states
error correction
graph states
heavy fermions
high-temperature superconductivity
hybrid quantum systems
industrial applications
Josephson junctions
laser cooling
machine learning
magnetic resonance imaging
Majorana bound states
Majorana fermions
many-body phenomena
micro-electromechanical systems
molecular electronics
Moore’s Law
nano-electromechanical systems
near-field optics
nitrogen vacancy center
optical antennas
optical cavities
optical cooling
optical trapping
quantum algorithms
quantum amplification
quantum annealing
quantum atomic clocks
quantum biology
quantum bits
quantum channels
quantum chaos
quantum chemistry
quantum circuits
quantum communication
quantum computation
quantum computers
quantum control
quantum criticality
quantum cryptography
quantum design
quantum devices
quantum dots
quantum dynamics
quantum electronics
quantum emitters
quantum engineering
quantum entanglement
quantum error correction
quantum Hall effect
quantum imaging
quantum impurities
quantum information
quantum information processing
quantum information theory
quantum interference
quantum interferometry
quantum Internet
quantum key distribution
quantum lithography
quantum machines
quantum magnetism
quantum magnetometry
Quantum Manifesto
quantum manipulation
quantum materials
quantum matter
quantum measurement
quantum mechanics
quantum memory
quantum metamaterials
quantum metrology
quantum nanophotonics
quantum networks
quantum optics
quantum phase transitions
quantum photonics
quantum physics
quantum plasmonics
quantum programming languages
quantum radar
quantum random number generators
quantum repeaters
quantum revolution
quantum science
quantum sensing
quantum sensors
quantum simulation
quantum spectroscopy
quantum spin Hall effect
quantum spin liquids
quantum state engineering
quantum states
quantum steering
quantum supremacy
quantum systems
quantum technology
quantum teleportation
quantum theory
quantum thermodynamics
quantum Web
relativistic quantum information
secure communication
semiconductor nanowires
silicon carbide
single photon detection
single photon sources
solid state quantum information
solid state qubits
spin glasses
spin ice
spin qubits
spin squeezing
strongly correlated systems
superconducting circuits
superconducting resonators
topological insulators
topological materials
topological quantum computation
topological quantum states
trapped atoms
trapped ions
ultracold atoms
ultracold Fermi gases
uncertainty relation
unconventional superconductors
valley carrier dynamics
Weyl fermions
Weyl semimetals
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