Our papers are the official record of our discoveries. They allow others to build on and apply our work. Each one is the result of many months of research, so we make a special effort to make our papers clear, inspiring and beautiful, and publish them in leading journals.

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  • M. BurtsevM. Burtsev
  • A. V. KosyakA. V. Kosyak
  • J. WangJ. Wang
  • Y. HeY. He
  • O. GamayunO. Gamayun
  • E. SobkoE. Sobko
  • F. SheldonF. Sheldon
  • F. CaravelliF. Caravelli
  • I. ShkredovI. Shkredov
  • A. StepanenkoA. Stepanenko
  • A. SarikyanA. Sarikyan
  • A. EsterovA. Esterov
  • A. OchirovA. Ochirov
  • M. ReevesM. Reeves
  • T. FinkT. Fink
  • G. CaldarelliG. Caldarelli
  • R. HannamR. Hannam
  • A. CoolenA. Coolen
  • O. DahlstenO. Dahlsten
  • A. MozeikaA. Mozeika
  • M. BardosciaM. Bardoscia
  • P. BaruccaP. Barucca
  • M. RowleyM. Rowley
  • I. TeimouriI. Teimouri
  • F. AntenucciF. Antenucci
  • A. ScalaA. Scala
  • R. FarrR. Farr
  • A. ZegaracA. Zegarac
  • S. SebastioS. Sebastio
  • B. BollobásB. Bollobás
  • F. LafondF. Lafond
  • D. FarmerD. Farmer
  • C. PickardC. Pickard
  • T. ReevesT. Reeves
  • J. BlundellJ. Blundell
  • A. GallagherA. Gallagher
  • M. PrzykuckiM. Przykucki
  • P. SmithP. Smith
  • L. PietroneroL. Pietronero
  • Efficient computation of quantum time-optimal control

    Quantum physics

    ASA. StepanenkoKCMG Submitted

    Towards optimal control

    Time-optimal control of large quantum systems is computed efficiently by applying boundary conditions to a brachistochrone–Lax framework.

  • Time-optimal transfer of the quantum state in long qubit arrays

    Quantum optimal control

    ASA. StepanenkoKSMA Physical Review Letters

    Optimal transfer

    We use the quantum brachistochrone method to design an optimal control strategy for the fastest quantum state transfer in long qubit chains.

  • Optimizing state transfer in a three-qubit array via quantum brachistochrone method

    Quantum optimal control

    KSASA. StepanenkoMA Optical Materials Express

    Three-qubit shortcut

    We achieve maximal-fidelity state transfer in the fastest possible time for a 3-qubit chain by applying the quantum variational method.

  • Vortex bound states in dimerized π-flux optical lattices: characterization, state preparation and current measurement

    QUANTUM GASES

    ASA. StepanenkoMD Physical Review A

    Vortex bound states

    Modelling the behaviour of two interacting bosonic particles in a chiral, dimerized optical lattice shows the pair form a vortex bound state.