**1**- Bennett, C.H. and Brassard, G. Quantum Cryptography: Public Key Distribution
and Coin Tossing.
*Proceedings of the IEEE International Conference on Computers, Systems and Signal Processing*. IEEE, New York. pp. 175-179 (1984). **2**- Bennet, C.H. and Shor, P.W. Privacy in a Quantum World.
*Science***284**. pp. 747-748 (30 April 1999) **3**- Bernstein, E. and Vazirani, U. Quantum Complexity Theory.
*Proceedings of the 25th CDM Symposium on the Theory of Computation.*pp. 11-20 (1993). **4**- Brassard, G. and Crépeau, C. Quantum Bit Commitment and Coin Tossing Protocols.
*Advances in Cryptology: Proceedings of Crypto '90.*Lecture Notes in Computer Science, Vol. 537. Springer-Verlag. pp. 49-61 (1991). **5**- Brassard, G. Crépeau, C., Jozsa, R. and Langlois, D. A Quantum Bit Commitment
Scheme Provably Unbreakable by Both Parties.
*Proceedings of the 34th Annual IEEE Symposium on Foundations of Computer Science*. IEEE press. pp. 362-371 (1993). **6**- Buttler, W.T., Hughes, R.J., Kwiat, P.G., Lamoreaux, S.K., Luther, G.G., Morgan,
G.L., Nordholt, J.E., Peterson, C.G. and Simmons, C.M. Practical Free-Space
Quantum Key Distribution over 1 km.
*Physical Review Letters***81**, pp. 3283-3286 (1998). **7**- Chau, H.F. and Lo, H.K. Making an Empty Promise with a Quantum Computer.
*Fortschritte der Physik***46**, 4-5 . pp. 507-519 (1998). **8**- Crépeau, C. What is going on with Quantum Bit Commitment?.
*Proceedings of Pragocrypt '96*, Czech Technical University Publishing House, Prague. pp. 193-203 (1996). **9**- Deutsch, D. Quantum Theory, the Church-Turing Principle and the Universal Quantum
Computer.
*Proceedings of the Royal Society of London***A400**. pp. 96-117 (1985). **10**- Kilian, J. Founding Cryptography on Oblivious Transfer. Proceedings of the 1998 ACM Annual Symposium on Theory of Computing. pp20-31 (1998).
**11**- Lo, H.K. and Chau, H.F. Is Quantum Bit Commitment Really Possible?, Los Alamos preprint archive, xxx.lanl.gov/abs/quant-ph/9603004 (1996).
**12**- Lo, H.K. and Chau, H.F. Is Quantum Bit Commitment Really Possible?
*Physical Review Letters***78**. pp 3410-3413 (28 April 1997) **13**- Lo, H.K. and Chau, H.F. Why Quantum Bit Commitment and Ideal Quantum Coin Tossing
are Impossible.
*Physica D***120**pp. 177-187 (1998). **14**- Lo, H.K. and Chau, H.F. Unconditional Security of Quantum Key Distribution over
Arbitrarily Long Distances.
*Science***283**. pp. 2050-2056 (26 March 1999). **15**- Makhlin, Y. Schön, G. and Shnirman, A. Josephson-junction qubits with controlled
couplings.
*Nature***398**, pp. 305-307 (25 March 1999). **16**- Mayers, D. The Trouble with Quantum Bit Commitment, Los Alamos preprint archive, xxx.lanl.gov/abs/quant-ph/9603015. (1996).
**17**- Mayers, D. Unconditionally Secure Quantum Bit Commitment is Impossible.
*Physical Review Letters***78**. pp 3414-3417 (28 April 1997). **18**- Ribordy, G. Gautier, J.D., Gisin, N. Guinnard, O. Zbinden, H. Automated "plug
& play" Quantum Key Distribution
*. Electronics Letters***34**(22), pp 2116-2117 (1998). **19**- Shor, P.W. Algorithms for Quantum Computation: Discrete Log and Factoring.
*Proceedings of the 35th Annual Symposium on Foundations of Computer Science.*IEEE press. pp. 124-134 (1994). **20**- Yao, A.C. Security of quantum protocols against coherent measurements.
*Proceedings of the 1995 ACM Symposium on Theory of Computing*. pp. 67-75 (1995).