Sandeep K. Goyal scite author profile

We present an experimental study of higher-dimensional quantum key distribution protocols based on mutually unbiased bases, implemented by means of photons carrying orbital angular momentum. We perform (d + 1) mutually unbiased measurements in a classical prepare and measure scheme and on a pair of entangled photons for dimensions ranging from d = 2 to 5. In our analysis, we pay attention to the detection efficiency and photon pair creation probability. As security measures, we determine from experimental data the average error rate, the mutual information shared between the sender and receiver and the secret key generation rate per photon. We demonstrate that increasing the dimension leads to an increased information capacity as well as higher key generation rates per photon up to a dimension of d = 4.

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Vibrational spectroscopy of sulfur hexafluoride attached to helium clusters

Goyal

1992

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Implementing Quantum Walks Using Orbital Angular Momentum of Classical Light

et al. 2013

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We present an implementation scheme for a quantum walk in the orbital angular momentum space of a laser beam. The scheme makes use of a ring interferometer, containing a quarter-wave plate and a q plate. This setup enables one to perform an arbitrary number of quantum walk steps. In addition, the classical nature of the implementation scheme makes it possible to observe the quantum walk evolution in real time. We use nonquantum entanglement of the laser beam's polarization with its orbital angular momentum to implement the quantum walk.

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Geometry of the generalized Bloch sphere for qutrits

Goyal¹,

Simon²,

Singh³

et al. 2016

J. Phys. A: Math. Theor.

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Abstract. The geometry of the generalized Bloch sphere Ω 3 , the state space of a qutrit, is studied. Closed form expressions for Ω 3 , its boundary ∂Ω 3 , and the set of extremals Ω are obtained by use of an elementary observation. These expressions and analytic methods are used to classify the 28 two-sections and the 56 three-sections of Ω 3 into unitary equivalence classes, completing the works of earlier authors. It is shown, in particular, that there are families of two-sections and of three-sections which are equivalent geometrically but not unitarily, a feature that does not appear to have been appreciated earlier. A family of three-sections of obese-tetrahedral shape whose symmetry corresponds to the 24-element tetrahedral point group T d is examined in detail. This symmetry is traced to the natural reduction of the adjoint representation of SU (3), the symmetry underlying Ω 3 , into direct sum of the two-dimensional and the two (inequivalent) three-dimensional irreducible representations of T d .

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Sandeep K. Goyal

Higher-dimensional orbital-angular-momentum-based quantum key distribution with mutually unbiased bases

Vibrational spectroscopy of sulfur hexafluoride attached to helium clusters

Implementing Quantum Walks Using Orbital Angular Momentum of Classical Light

Geometry of the generalized Bloch sphere for qutrits

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