Modeling chemical reactions and complicated molecular systems has been proposed as the “killer application” of a future quantum computer. Accurate calculations of derivatives of molecular eigenenergies are essential toward this end, allowing for geometry optimization, transition state searches, predictions of the response to an applied electric or magnetic field, and molecular dynamics simulations. In this work, we survey methods to calculate energy derivatives, and present two new methods: one based on quantum phase estimation, the other on a low-order response approximation. We calculate asymptotic error bounds and approximate computational scalings for the methods presented. Implementing these methods, we perform geometry optimization on...
Exact first-principles calculations of molecular properties are currently intractable because their ...
Since its introduction one decade ago, the quantum algorithm for chemistry has been among the most a...
The design of new materials and chemicals derived entirely from computation has long been a goal of ...
Modeling chemical reactions and complicated molecular systems has been proposed as the“killer applic...
The calculation time for the energy of atoms and molecules scales exponentially with system size on ...
Over the last century, a large number of physical and mathematical developments paired with rapidly ...
We report the first electronic structure calculation performed on a quantum computer without exponen...
Over the last century, a large number of physical and mathematical developments paired with rapidly ...
Computational quantum mechanics is leading to new, theoretically based methods for the prediction of...
We develop a quantum-classical hybrid algorithm to calculate the analytical second-order derivative ...
This dissertation concerns the development of quantum computing algorithms for solving electronic st...
Quantum computers are appealing for their ability to solve some tasks much faster than their classic...
Exact first-principles calculations of molecular properties are currently intractable because their ...
Exact first-principles calculations of molecular properties are currently intractable because their ...
Quantum computers, if available, could substantially accelerate quantum simulations. We extend this ...
Exact first-principles calculations of molecular properties are currently intractable because their ...
Since its introduction one decade ago, the quantum algorithm for chemistry has been among the most a...
The design of new materials and chemicals derived entirely from computation has long been a goal of ...
Modeling chemical reactions and complicated molecular systems has been proposed as the“killer applic...
The calculation time for the energy of atoms and molecules scales exponentially with system size on ...
Over the last century, a large number of physical and mathematical developments paired with rapidly ...
We report the first electronic structure calculation performed on a quantum computer without exponen...
Over the last century, a large number of physical and mathematical developments paired with rapidly ...
Computational quantum mechanics is leading to new, theoretically based methods for the prediction of...
We develop a quantum-classical hybrid algorithm to calculate the analytical second-order derivative ...
This dissertation concerns the development of quantum computing algorithms for solving electronic st...
Quantum computers are appealing for their ability to solve some tasks much faster than their classic...
Exact first-principles calculations of molecular properties are currently intractable because their ...
Exact first-principles calculations of molecular properties are currently intractable because their ...
Quantum computers, if available, could substantially accelerate quantum simulations. We extend this ...
Exact first-principles calculations of molecular properties are currently intractable because their ...
Since its introduction one decade ago, the quantum algorithm for chemistry has been among the most a...
The design of new materials and chemicals derived entirely from computation has long been a goal of ...