Quantum computation and quantum information
Quantum computation and quantum information
Distinguishing quantum channels via magic squares game
Quantum Information Processing
The quantum monty hall problem
Quantum Information & Computation
Multiplayer quantum minority game with decoherence
Quantum Information & Computation
Decoherence and entanglement degradation of a qubit-qutrit system in non-inertial frames
Quantum Information Processing
Qubit flip game on a Heisenberg spin chain
Quantum Information Processing
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Effect of quantum decoherence in a three-player quantum Kolkata restaurant problem is investigated using tripartite entangled qutrit states. Different qutrit channels such as, amplitude damping, depolarizing, phase damping, trit-phase flip and phase flip channels are considered to analyze the behaviour of players payoffs. It is seen that Alice's payoff is heavily influenced by the amplitude damping channel as compared to the depolarizing and flipping channels. However, for higher level of decoherence, Alice's payoff is strongly affected by depolarizing noise. Whereas the behaviour of phase damping channel is symmetrical around 50% decoherence. It is also seen that for maximum decoherence (p = 1), the influence of amplitude damping channel dominates over depolarizing and flipping channels. Whereas, phase damping channel has no effect on the Alice's payoff. Therefore, the problem becomes noiseless at maximum decoherence in case of phase damping channel. Furthermore, the Nash equilibrium of the problem does not change under decoherence.