The concept of quantum bit commitment was introduced in the early 1980s for the purpose of basing bit commitments solely on principles of quantum theory. Unfortunately, such unconditional quantum bit commitments still turn out to be impossible. As a compromise like in classical cryptography, Dumais et al. [DMS00] introduce the conditional quantum bit commitments that additionally rely on complexity assumptions. However, in contrast to classical bit commitments which are widely used in classical cryptography, up until now there is relatively little work towards studying the application of quantum bit commitments in quantum cryptography. This may be partly due to the well-known weakness of the general quantum binding that comes from the possi...
One-way functions are central to classical cryptography. They are both necessary for the existence o...
We analyze the situation where computationally binding string commitment schemes are used to force t...
Quantum computing allows us to revisit the study of quantum cryptographic primitives with informatio...
The concept of quantum bit commitment was introduced in the early 1980s for the purpose of basing bi...
Bit commitment is a primitive task of many cryptographic tasks. It has been proved that the uncondit...
AbstractIn this paper, we introduce a new quantum bit commitment protocol which is secure against en...
Watrous (STOC 2006) proved that plugging classical bit commitment scheme that is secure against quan...
Bit commitment (BC) is one of the most important fundamental protocols in secure multi-party computa...
We show that all proposed quantum bit commitment schemes are insecure because the sender, Alice, can...
Unconditionally secure non-relativistic bit commitment is known to be impossible in both the classic...
In this paper we show how to convert a statistically bindingbut computationally concealing quantum b...
What does it mean to commit to a quantum state? In this work, we propose a simple answer: a commitme...
Unconditionally secure two-party bit commitment based solely on the principles of quantum mechanics ...
It is well known that unconditionally secure bit commitment is impossible even in the quantum world....
We show the following unconditional results on quantum commitments in two related yet different mode...
One-way functions are central to classical cryptography. They are both necessary for the existence o...
We analyze the situation where computationally binding string commitment schemes are used to force t...
Quantum computing allows us to revisit the study of quantum cryptographic primitives with informatio...
The concept of quantum bit commitment was introduced in the early 1980s for the purpose of basing bi...
Bit commitment is a primitive task of many cryptographic tasks. It has been proved that the uncondit...
AbstractIn this paper, we introduce a new quantum bit commitment protocol which is secure against en...
Watrous (STOC 2006) proved that plugging classical bit commitment scheme that is secure against quan...
Bit commitment (BC) is one of the most important fundamental protocols in secure multi-party computa...
We show that all proposed quantum bit commitment schemes are insecure because the sender, Alice, can...
Unconditionally secure non-relativistic bit commitment is known to be impossible in both the classic...
In this paper we show how to convert a statistically bindingbut computationally concealing quantum b...
What does it mean to commit to a quantum state? In this work, we propose a simple answer: a commitme...
Unconditionally secure two-party bit commitment based solely on the principles of quantum mechanics ...
It is well known that unconditionally secure bit commitment is impossible even in the quantum world....
We show the following unconditional results on quantum commitments in two related yet different mode...
One-way functions are central to classical cryptography. They are both necessary for the existence o...
We analyze the situation where computationally binding string commitment schemes are used to force t...
Quantum computing allows us to revisit the study of quantum cryptographic primitives with informatio...