Add to ORKGWe present a quantum algorithm to achieve higher-order transformations of Hamiltonian dynamics. Namely, the algorithm takes as input a finite number of queries to a black-box seed Hamiltonian dynamics to simulate a desired Hamiltonian. Our algorithm efficiently simulates linear transformations of any seed Hamiltonian with a bounded energy range consisting of a polynomial number of terms in system size, making use of only controlled-Pauli gates and time-correlated randomness. This algorithm is an instance of quantum functional programming, where the desired function is specified as a concatenation of higher-order quantum transformations. By way of example, we demonstrate the simulation of negative time-evolution and time-reversal, and perfor...
The simulation of quantum dynamics calls for quantum algorithms working in first quantized grid enco...
Simulating the time-evolution of a Hamiltonian is one of the most promising applications of quantum ...
The accurate and efficient simulation of many body systems has been a long-standing challenge for qu...
We propose an efficient quantum algorithm for simulating the dynamics of general Hamiltonian systems...
We propose a simple quantum algorithm for simulating highly oscillatory quantum dynamics, which does...
Simulating the Hamiltonian dynamics of quantum systems is one of the most promising applications of ...
We present a new approach to simulating Hamiltonian dynamics based on implementing linear combinatio...
With a focus on universal quantum computing for quantum simulation, and through the example of latti...
The simulation of quantum physical systems is expected to be an important application for quantum co...
The goal of digital quantum simulation is to approximate the dynamics of a given target Hamiltonian ...
We describe a simple, efficient method for simulating Hamiltonian dynamics on a quantum computer by ...
We propose Hamiltonian Quantum Generative Adversarial Networks (HQuGANs), to learn to generate unkno...
The Hamiltonian of a quantum system governs the dynamics of the system via the Schrodinger equation....
We explicitly show how to simulate time-dependent sparse Hamiltonian evolution on a quantum computer...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2008.This electronic versi...
The simulation of quantum dynamics calls for quantum algorithms working in first quantized grid enco...
Simulating the time-evolution of a Hamiltonian is one of the most promising applications of quantum ...
The accurate and efficient simulation of many body systems has been a long-standing challenge for qu...
We propose an efficient quantum algorithm for simulating the dynamics of general Hamiltonian systems...
We propose a simple quantum algorithm for simulating highly oscillatory quantum dynamics, which does...
Simulating the Hamiltonian dynamics of quantum systems is one of the most promising applications of ...
We present a new approach to simulating Hamiltonian dynamics based on implementing linear combinatio...
With a focus on universal quantum computing for quantum simulation, and through the example of latti...
The simulation of quantum physical systems is expected to be an important application for quantum co...
The goal of digital quantum simulation is to approximate the dynamics of a given target Hamiltonian ...
We describe a simple, efficient method for simulating Hamiltonian dynamics on a quantum computer by ...
We propose Hamiltonian Quantum Generative Adversarial Networks (HQuGANs), to learn to generate unkno...
The Hamiltonian of a quantum system governs the dynamics of the system via the Schrodinger equation....
We explicitly show how to simulate time-dependent sparse Hamiltonian evolution on a quantum computer...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2008.This electronic versi...
The simulation of quantum dynamics calls for quantum algorithms working in first quantized grid enco...
Simulating the time-evolution of a Hamiltonian is one of the most promising applications of quantum ...
The accurate and efficient simulation of many body systems has been a long-standing challenge for qu...