Nuclear physics can greatly advance by taking advantage of quantum computing. Quantum computing can play a pivotal role in advancing nuclear physics and can allow for the description of physical situations and problems that are prohibitive to solve using classical computing due to their complexity. Some of the problems whose complexity requires using quantum computing to describe are: interacting quantum many-body and Quantum Field Theory problems such as simulating strongly interacting fields such as Quantum Chromodynamics with physical time evolution, the determination of the shape/phase of a nucleus using the time evolution of an appropriated observable as well as identifying particles and reconstructing their paths. This report focuses ...
Quantum computers have potential to contribute to advancements in many disciplines including chemist...
Quantum computing is a modern way of computing that is based on the science of quantum mechanics and...
Universal quantum computers are potentially an ideal setting for simulating many-body quantum dynami...
We review recent research on quantum computing applications for calculations and simulation of nucle...
High-performance computing is now enabling the calculation of certain hadronic interaction parameter...
596-598This paper in a nutshell, introduces quantum computational techniques used in nuclear physics...
Quantum processing of information has become a rapidly evolving field of research in physics, mathem...
Quantum computing offers a new paradigm for advancing high-energy physics research by enabling novel...
The UNEDF project was a large-scale collaborative effort that applied high-performance computing to ...
We explore the preparation of specific nuclear states on gate-based quantum hardware using variation...
Today's computers work on bits that exist as either 0 or 1. Quantum computers aren't limited to two ...
This is a study of several physical challenges for building a quantum computer, a hypothetical devic...
Applications of quantum computing to high energy physics (HEP) is a relatively new field of research...
Nucleus is a typical many-body quantum system. Full calculation of a nuclear system in a classical c...
Model calculations of nuclear properties are peformed using quantum computing algorithms on simulate...
Quantum computers have potential to contribute to advancements in many disciplines including chemist...
Quantum computing is a modern way of computing that is based on the science of quantum mechanics and...
Universal quantum computers are potentially an ideal setting for simulating many-body quantum dynami...
We review recent research on quantum computing applications for calculations and simulation of nucle...
High-performance computing is now enabling the calculation of certain hadronic interaction parameter...
596-598This paper in a nutshell, introduces quantum computational techniques used in nuclear physics...
Quantum processing of information has become a rapidly evolving field of research in physics, mathem...
Quantum computing offers a new paradigm for advancing high-energy physics research by enabling novel...
The UNEDF project was a large-scale collaborative effort that applied high-performance computing to ...
We explore the preparation of specific nuclear states on gate-based quantum hardware using variation...
Today's computers work on bits that exist as either 0 or 1. Quantum computers aren't limited to two ...
This is a study of several physical challenges for building a quantum computer, a hypothetical devic...
Applications of quantum computing to high energy physics (HEP) is a relatively new field of research...
Nucleus is a typical many-body quantum system. Full calculation of a nuclear system in a classical c...
Model calculations of nuclear properties are peformed using quantum computing algorithms on simulate...
Quantum computers have potential to contribute to advancements in many disciplines including chemist...
Quantum computing is a modern way of computing that is based on the science of quantum mechanics and...
Universal quantum computers are potentially an ideal setting for simulating many-body quantum dynami...