Add to ORKGIn this thesis, we introduce several new, architectures for quantum computing under restricted control. We consider two specific cases of restricted control; systems in which local control of individual qubits is impossible, and systems in which qubits are connected by a probabilistic entangling mechanism. First we will- consider densely packed spin chains and introduce a novel scheme for performing universal quantum computing within this system using only global control. Global control avoids local manipulation of individual qubits, using instead identical operations on each qubit. We present an experimental demonstration of this scheme using NMR techniques. Next we propose an architecture for implementing fault-tolerant computation using ...
Motivated by some recent results of quantum control theory, we discuss the feasibility of local oper...
Quantum computing has the potential to transform information technology by offering algorithms for c...
Quantum processors that combine the long decoherence times of spin qubits together with fast optical...
AbstractIn many proposed architectures for quantum computing the physics of the system prevent qubit...
In many proposed architectures for quantum computing the physics of the system prevent qubits from b...
In many proposed architectures for quantum computing the physics of the system prevent qubits from b...
We give a sufficient criterion that guarantees that a many-body quantum system can be controlled by ...
We apply quantum control techniques to a long spin chain by acting only on two qubits at one of its ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
Conventional quantum computing schemes are incompatible with nanometer-scale "hardware," where the c...
Towards the full-fledged quantum computing, what do we need? Obviously, the first thing we need is a...
This thesis describes our work on optimizing quantum control and scaling up quantum computers. We de...
Quantum processors that combine the long decoherence times of spin qubits together with fast optical...
We describe and analyze a hybrid approach to scalable quantum computation based on an optically conn...
A quantum computer has the potential to efficiently solve problems that are intractable for classica...
Motivated by some recent results of quantum control theory, we discuss the feasibility of local oper...
Quantum computing has the potential to transform information technology by offering algorithms for c...
Quantum processors that combine the long decoherence times of spin qubits together with fast optical...
AbstractIn many proposed architectures for quantum computing the physics of the system prevent qubit...
In many proposed architectures for quantum computing the physics of the system prevent qubits from b...
In many proposed architectures for quantum computing the physics of the system prevent qubits from b...
We give a sufficient criterion that guarantees that a many-body quantum system can be controlled by ...
We apply quantum control techniques to a long spin chain by acting only on two qubits at one of its ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
Conventional quantum computing schemes are incompatible with nanometer-scale "hardware," where the c...
Towards the full-fledged quantum computing, what do we need? Obviously, the first thing we need is a...
This thesis describes our work on optimizing quantum control and scaling up quantum computers. We de...
Quantum processors that combine the long decoherence times of spin qubits together with fast optical...
We describe and analyze a hybrid approach to scalable quantum computation based on an optically conn...
A quantum computer has the potential to efficiently solve problems that are intractable for classica...
Motivated by some recent results of quantum control theory, we discuss the feasibility of local oper...
Quantum computing has the potential to transform information technology by offering algorithms for c...
Quantum processors that combine the long decoherence times of spin qubits together with fast optical...