Quantum computing: Difference between revisions

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* Manipulate the coherence in a manner specified by the algorithm of interest and  
* Manipulate the coherence in a manner specified by the algorithm of interest and  
* Read out the result.
* Read out the result.
All of these operations can be implemented using a modern high resolution [[NMR]] spectrometer<ref>{{citation
 
Experiments demonstrating ensemble quantum computing algorithms have been successfully implemented on [[NMR]] spectrometers<ref>{{citation
  | last = D.G.Cory, A.Fahmy, T.F.Havel
  | last = D.G.Cory, A.Fahmy, T.F.Havel
  | year = 1997
  | year = 1997
Line 16: Line 17:
  | doi = 10.1073/pnas.94.5.1634
  | doi = 10.1073/pnas.94.5.1634
  | url = http://www.pnas.org/cgi/content/full/94/5/1634
  | url = http://www.pnas.org/cgi/content/full/94/5/1634
}}</ref>. Experiments demonstrating several quantum computing algorithms have been successfully implemented on [[NMR]] spectrometers. Other experimental methods have also been used to demonstrate the experimental feasibility of such a computer.
}}</ref>.  Such (an expectation value) Quantum computer can solve some problems in polynomial time that would be non deterministic polynomial time complete ([[NP complete]]) on a conventional computer.  
Other experimental methods have also been used to demonstrate the experimental feasibility of such a computer.


==References==
==References==
<references/>
<references/>

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Quantum computing is a novel paradigm for computing. Quantum mechanical systems can exist as a superposition of states and this property can be used to design computing systems that can encode several possible solutions simultaneously. Certain problems that require an exponentially large time on an ordinary computer may be solved in linear time using Quantum computers. Basic unit of information storage in a quantum computer is called the qubit. Whereas a conventional computer stores bits (which can be either 1 or 0), a state (qubit) in a quantum computer can be simultaneously both 0 and 1 (this is called superposition of states).

To create a working Quantum computer, it is necessary to create:

  • A coherent superposition of states,
  • Manipulate the coherence in a manner specified by the algorithm of interest and
  • Read out the result.

Experiments demonstrating ensemble quantum computing algorithms have been successfully implemented on NMR spectrometers[1]. Such (an expectation value) Quantum computer can solve some problems in polynomial time that would be non deterministic polynomial time complete (NP complete) on a conventional computer. Other experimental methods have also been used to demonstrate the experimental feasibility of such a computer.

References

  1. D.G.Cory, A.Fahmy, T.F.Havel (1997), "Ensemble quantum computing by NMR spectroscopy", Proceedings of the National Academy of Sciences 94 (5): 1634–1639, DOI:10.1073/pnas.94.5.1634
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