[21] Client-friendly continuous-variable blind and verifiable quantum computing, N. Liu, T.F. Demarie, S.-H. Tan, L. Aolita,
       J.F. Fitzsimons, arXiv: 1806.09137.

[20] The resurgence of the linear optics quantum interferometer — recent advances & applications, S.-H. Tan, P.P. Rohde,
        arXiv: 1806.09137.

[19] Experimental quantum homomorphic encryption, J. Zeuner, I. Pitsios, S.-H. Tan, A.N. Sharma, J.F. Fitzsimons, R.    
       Osellame, P. Walther, arXiv: 1803.10246.

[18] Practical somewhat-secure quantum somewhat-homomorphic encryption with coherent states, S.-H. Tan, Y. Ouyang,  
       P.P. Rohde, Phys. Rev. A 97 042308 (2018).

[17] Computing on quantum shared secrets, Y. Ouyang, S.-H. Tan, L. Zhao, J.F. Fitzsimons, Phys. Rev. A 96, 052333    

[16] The Overarching framework between Gaussian quantum discord and Gaussian quantum illumination, M. Bradshaw,  
       S.M. Assad, J.Y. Haw, S.-H. Tan, P.K. Lam, M. Gu, Phys. Rev. A 95, 022333 (2017). 

[15] Quantum homomorphic encryption from quantum codes, Y. Ouyang, S.-H. Tan, J. Fitzsimons, arXiv:1508.00938 

[14] A quantum approach to homomorphic encryption, S.-H. Tan, J.A. Kettlewell, Y. Ouyang, L. Chen, J. F. Fitzsimons,
       Sci. Rep. 6, 33467 (2016).

[13] Measuring quantum correlations using lossy photon-number-resolving detectors with saturation, S.-H. Tan, L.A.
       Kritvitsky, B.-G. Englert, J. Modern Opt., Vol. 63, Issue 3 (2016).

[12] Generalized multi-photon quantum interference, M. Tillmann, S.-H. Tan, S. E. Stoeckl, B.C. Sanders, H. deGuise, R.
       Heilmann, S. Nolte, A. Szameit, P. Walther, Phys. Rev. X 5, 041015 (2015).

[11] Finite codelength analysis of the sequential waveform nulling receiver for M-ary PSK, S.-H. Tan, Z. Dutton, R. Nair, S.
      Guha, IEEE Int. Symp. on Inf. Th. 2014, pp. 1665-1670

[10] Coincidence landscapes for three-channel linear optical networks, H. deGuise, S.-H. Tan, I.P. Poulin, B.C. Sanders,
       Phys. Rev. A 89, 063819 (2014).

[9] Realizable receivers for discriminating arbitrary coherent-state waveforms and multi-copy quantum states near the
     quantum limit
, R. Nair, S. Guha, S.-H. Tan, Phys. Rev. A 89, 032318 (2014).

[8] A realizable receiver for discriminating arbitrary coherent states near the quantum limit, R. Nair, S. Guha, S.-H. Tan
     IEEE Int. Symp. on Inf. Th. 2013, pp. 729-733.

[7] SU(3) Quantum Interferometry with single-photon input pulses, S.-H. Tan, Y. Y. Gao, H. de Guise, B. C. Sanders, Phys.
     Rev. Lett.
101, 253601 (2013).

[6] Measurement of two-mode squeezing with photon number resolving multi-pixel detectors, D.A. Kalashnikov, S.-H. Tan,
     T. Sh. Iskhakov, M. V. Chekhova and L. Krivitsky, Opt. Lett. 37, Issue 14, pp. 2829-2831 (2012).

[5] Explicit Capacity-Achieving Receivers for Optical Communication and Quantum Reading, S. Guha, S.-H. Tan, and M.
    Wilde, Proc. IEEE Int. Symp. on Inf. Th. 2012, pp. 551-555.

[4] Crosstalk Calibration of Multi-pixel Photon Counters using Coherent States, D.A. Kalashnikov, S.-H. Tan, and L.
    Krivitsky, Opt. Express 20, Vol. 20, Issue 5, pp. 5044-5051 (2012).

[3] Accessing Photon Bunching with Photon Number Resolving Multi-pixel Detector, D.A. Kalashnikov, S.-H. Tan, M.V.
    Chekhova, and L. Krivitsky, Opt. Express 19, Vol. 10, pp. 9352-9363 (2011).

[2] Quantum state discrimination with bosonic channels and Gaussian states, S.-H. Tan, Ph.D. Thesis (2010).

[1] Quantum Illumination with Gaussian States, S.-H. Tan, B.I. Erkmen, V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, S.
    Pirandola, and J.H. Shapiro, Phys. Rev. Lett. 101, 253601 (2008).