Pseudo-Secret Random Qubit Generator (PSQRG): Difference between revisions

Line 72: Line 72:
==='''Stage2''' Squeezing===
==='''Stage2''' Squeezing===
*'''Output''': If the protocol is run honestly, when there is no abort, the state that Server has is <math>+_{\theta}</math>, where the Client (only) knows the classical description.
*'''Output''': If the protocol is run honestly, when there is no abort, the state that Server has is <math>+_{\theta}</math>, where the Client (only) knows the classical description.
#Client: instructs the Server to measure all the qubits (except the last one) of the first register in the <math>\left\{\ket{0}\pm e^{\alpha_i\pi/4}\ket{1}\right\}</math> basis. Server obtains the outcomes <math>b=(b_1,\cdots,b_{n-1})</math> and returns the result <math>b</math> to the Client.
#Client: instructs the Server to measure all the qubits (except the last one) of the first register in the <math>\left\{|0\rangle\pm e^{\alpha_i\pi/4}|1\rangle\right\}</math> basis. Server obtains the outcomes <math>b=(b_1,\cdots,b_{n-1})</math> and returns the result <math>b</math> to the Client.
#Client: using the trapdoor <math>t_k</math> computes <math>x,x'</math>. Then check if the <math>n^{\text{th}}</math> bit of <math>x</math> and <math>x'</math> (corresponding to the y received in stage 1) are the same or different. If they are the same, returns abort, otherwise, obtains the classical description of the Server’s state.
#Client: using the trapdoor <math>t_k</math> computes <math>x,x'</math>. Then check if the <math>n^{\text{th}}</math> bit of <math>x</math> and <math>x'</math> (corresponding to the y received in stage 1) are the same or different. If they are the same, returns abort, otherwise, obtains the classical description of the Server’s state.


Write, autoreview, editor, reviewer
3,129

edits