[1] MUKHOPADHYAY S. Role of optics in superfast information processing[J]. Indian journal of physics, 2010, 84(8):1069-1074.
[2] VITELLI C, SPAGNOLO N, APARO L, et al. Joining the quantum state of two photons into one[J]. Nature photonics, 2013, 7:521-526.
[3] BARENCO A, BENNETT C H, CLEVE R, et al. Elementary gates for quantum computation[J]. Physical review A, 1995, 52:3457-3467.
[4] GHOSH B, BISWAS S, MUKHOPADHYAY S. A novel method of all-optical wavelength encoded logic and inhibitor operations with dibit representation technique[ J]. Optik, 2015, 126(4): 483-489.
[5] YARIV A. Photonics-optical electronics in modern communication[M]. 6th ed. New York:Oxford University Press, 2007.
[6] GHATAK A, THYAGARAJAN K. Optical electronics[ M]. New Delh:Cambridge University Press, 2008.
[7] JONES J A. Nested composite NOT gates for quantum computation[J]. Physics letters A, 2013, 377(40) : 2860-2862.
[8] DEY S, MUKHOPADHYAY S. Implementation of alloptical Pauli-Y gate by the integrated phase and polarization encoding[J]. IET optoelectronics, 2018, 12(4): 176-179.
[9] DEY S, MUKHOPADHYAY S. Approach of implementing phase encoded quantum square root of NOT gate[J]. Electronics letters, 2017, 53(20):1375-1377.
[10] DEY S, MUKHOPADHYAY S. All-optical integrated square root of Pauli-Z gates using polarization and phase encoding[J]. Journal of optics, 2019, 48 (8): 520-526.
[11] MANDAL M, MUKHOPADHYAY S. Photonic scheme for implementing quantum square root controlled Z gate using phase and intensity encoding of light[J]. IET optoelectronics, 2021, 15(31):52-60.
[12] SARKAR B, MUKHOPADHYAY S. An all-optical system for implementing integrated Hadamard-Pauli quantum logic[J/OL]. Journal of optical communications, 2019 [2021-7-15]. https://doi.org/10.1515/joc- 2019-0093.
[13] MANDAL M, MUKHOPADHYAY S. Implementation of quantum optical phase shift gate adopting multipassing technique in lithium niobate based electro-optic crystal[M]//SINGH K, GUPTA A K, KHARE S, et al. ICOL-2019, Proceedings of the international conference on optics and electro-optics. Singapore:Springer, 2021, 258:687-690.
[14] DEY S, MUKHOPADHYAY S. All-optical high frequency clock pulse generator using the feedback mechanism in Toffoli gate with Kerr material[J]. Journal of nonlinear optical physics & materials, 2016, 25(1):1650012.
[15] DE P, RANWA S, MUKHOPADHYAY S. Implementation of all-optical Toffoli gate by 2D Si-air photonic crystal[J]. IET optoelectronics, 2021, 15(3):139-148.
[16] DEY S, DE P, MUKHOPADHYAY S. An all-optical implementation of Fredkin gate using Kerr effect[J]. Optoelectronics Letters, 2019, 15(4):317-320.
[17] SARKAR B, MUKHOPADHYAY S. All optical scheme for implementing an integrated Pauli’s X, Y and Z quantum gates with optical switches[J]. Journal of optics, 2017, 46(2):143-148.
[18] GORAI S K, PAL A, MUKHOPADHYAY S. Alloptical frequency encoded inversion operation with tristate logic using reflecting semiconductor optical amplifiers[ J]. Optik, 2010, 121(16):1462-1465.
[19] GARAI S K. A scheme of developing frequency encoded tristate-optical operations using semiconductor optical amplifier[J]. Journal of modern optics, 2010, 57(6):419-428.