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Quantum computing with nuclear spins...

Ladd, Thaddeus D.

Quantum computing with nuclear spins in semiconductors.

Record Type:	Electronic resources : Monograph/item
Title/Author:	Quantum computing with nuclear spins in semiconductors.
Author:	Ladd, Thaddeus D.
Description:	232 p.
Notes:	Adviser: Yoshihisa Yamamoto.
Notes:	Source: Dissertation Abstracts International, Volume: 66-04, Section: B, page: 2122.
Contained By:	Dissertation Abstracts International66-04B.
Subject:	Physics, Condensed Matter.
Online resource:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3171746
ISBN:	9780542086274

Quantum computing with nuclear spins in semiconductors.
Ladd, Thaddeus D.

Quantum computing with nuclear spins in semiconductors. - 232 p.

Adviser: Yoshihisa Yamamoto.

Thesis (Ph.D.)--Stanford University, 2005.

I will discuss an architecture that takes advantage of this clean nuclear environment, but I will also address its scalability limitations due to silicon's poor optical characteristics. These limitations will suggest new experiments employing nuclear spins in optically controlled semiconductor quantum dots, which may hold more promise for future scalable quantum computer architectures.

ISBN: 9780542086274Subjects--Topical Terms:

226939
Physics, Condensed Matter.

Quantum computing with nuclear spins in semiconductors.
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100 0 $a Ladd, Thaddeus D. $3 244689
245 1 0 $a Quantum computing with nuclear spins in semiconductors.
300 $a 232 p.
500 $a Adviser: Yoshihisa Yamamoto.
500 $a Source: Dissertation Abstracts International, Volume: 66-04, Section: B, page: 2122.
502 $a Thesis (Ph.D.)--Stanford University, 2005.
520 # $a I will discuss an architecture that takes advantage of this clean nuclear environment, but I will also address its scalability limitations due to silicon's poor optical characteristics. These limitations will suggest new experiments employing nuclear spins in optically controlled semiconductor quantum dots, which may hold more promise for future scalable quantum computer architectures.
520 # $a Many technologies have been considered for finding such an architecture; in this work I focus on nuclear spins in semiconductors. Semiconductors provide promising optical means for polarizing and measuring small nuclear spin ensembles, which are tasks that pose critical challenges to quantum computers based on nuclear magnetic resonance (NMR). At the same time, semiconductor nuclei are sufficiently coherent quantum oscillators to allow complex information processing using resonant radio-frequency pulse sequences. In particular, the isotopically clean and magnetically quiet environment of pure, high quality, bulk single-crystal silicon provides a nuclear environment allowing what may be the longest absolute coherence time of any solid-state qubit currently under consideration. I have experimentally tested this claim using high-power NMR pulse sequences to eliminate inhomogeneous dephasing and dipolar evolution among an ensemble of 29Si nuclei in isotopically modified silicon crystals. Intrinsic decoherence processes are only observed in polycrystalline silicon, where 1/f charging noise processes are likely to blame. In high-quality single crystal samples, nuclear coherence persists for over 25 seconds, a timescale limited only by pulse sequence imperfections.
520 # $a The successful implementation of a scalable, fault-tolerant quantum computer would introduce a type of information processing more powerful than any available today. Reciprocally, the discovery of a fundamental obstacle to such a system would be an important advance in the foundations of quantum theory. No such fundamental obstacles are currently known, but neither has any architecture been shown to be experimentally scalable.
590 $a School code: 0212.
650 # 0 $a Physics, Condensed Matter. $3 226939
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710 0 # $a Stanford University. $3 212607
773 0 # $g 66-04B. $t Dissertation Abstracts International
790 $a 0212
790 1 0 $a Yamamoto, Yoshihisa, $e advisor
791 $a Ph.D.
792 $a 2005
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