Quantum Computers

1. By Christopher Coffman 11/7/2012 Quantum Computers

2. QuestionsThatWill Hopefully Be Clearer at the Presentation’s End • What are quantum computers? • What are the physics concepts are at play? • What are the basic components of a quantum computer and how they are used? • What are some different models for quantum computing? • What are some of the candidates for quantum computers? • What’s the present state of quantum computing?

3. Traditional Computers • Computers are defined as devices which contain some kind of processor and memory. • Typical “Digital” processors interrupt information and then makes decisions. • This info is normally in groups of byte, which contain 8 bits(0 or 1 value) . • Ergo 8 bits = 2^8=256 different combinations for information.

4. Turing Machine Alan Turing (1936) describes a machine which reads symbols on a tape and inter- -puts it via a table of rules.

5. Quantum Turing Machines (QTM) • Simply a Turing Machine whose tape is in a quantum state. • Turing-Deutsch principle states that QTM can simulate every physical process, assuming Quantum Mechanic can completely describe the state. • The information exists in qubits, or like its digital analogue bits.

6. The Physics Behind This Stuff • Quantum Entanglement is the phenomenon of when two quantum states become paired and thus have the same state at all times. • Superposition the ability of any function to be a superposition (linear combination) of all the possible states.

7. Qubits • Quantum Bits a piece of info that can be Either on, off, or somewhere between. • The unitary transforms these bits Undergo can be thought of using an Angle within the Bloch Sphere • 500 qubits allows for up to 2^500 states to Be examined at once, while classical computers can express merely 500 states. • Processed/travel Quantum Logic Gates

8. Quantum Algorithms • There are two main quantum Algorithms at this time. • Shor’s -for integer factorization. Very useful in cryptography. • Grover’s –for searching unsorted databases of N entries.

9. SQUIDs and Josephson junctions • SQUID – Superconducting Quantum Interference Device allows for detection minute changes in magnetic fields • Josephson Junctions- creates low resistance circuits for qubits which allow for massive amounts of info to transmitted relatively quickly.

10. Quantum Computing Today • The system’s still lack large scale qubit systems. • Quantum Memory Storage has yet to be touched! • Quantum Algorithms are being formulated to create more useful applications of systems • Recent Nobel Prize was in measuring and maintain quantum states within a field.

11. In Summary… • Quantum Computing is still in it’s infancy, and we don’t know if they are even physically possible yet. • Algorithms need to be improved and expanded if serious computing increases are to be realized. • Would prove several aspect of QM and at the same time develop ways of controlling these states.

12. Fun Videos • http://www.youtube.com/watch?feature=player_embedded&v=cYw2ewoO6c4

13. References • Hardesty, Larry. Qunatum Computing may actually be useful. 2012. 5 November 2012 <http://web.mit.edu/newsoffice/2009/quantum-algorithm.html>. • Morton, John J, et al. "Solid-state quantum memory using the 31P nuclear spin`." Nature (2008): 1085-1088. • UC Berkeley. "Quantum Akgorithms." n.d.Computer csienceBerkely. 5 November 2012 <http://www.cs.berkeley.edu/~vazirani/algorithms/chap10.pdf>. • University of Arkansas. Turing Machine. 4 May 2011. 7 November 2012 <http://math2033.uark.edu/wiki/index.php/Turing_machine>. • Wikipedia. "Allen Turing." 24 June 2010. Wekipeda. 6 November 2012 <http://en.wikipedia.org/wiki/File:Alan_Turing_photo.jpg>. • —. Bit. 27 October 2012. 6 11 2012 <http://en.wikipedia.org/wiki/Bit>. • —. Computers. 24 October 2012. 6 November 2012 <http://en.wikipedia.org/wiki/Computer#Components>. • —. SQUID. 23 October 2012. 6 November 2012 <http://en.wikipedia.org/wiki/SQUID>. • Youtube. Lego Turing MAchine. Denmark, 28 Jan 2009.

14. Questions