During the last ten years, superconducting circuits have passed from being interesting
physical devices to becoming contenders for near-future useful and scalable quantum …

The review article presents the recent progress in quantum computing and simulation within
the field of biological sciences. The article is designed mainly into two portions: quantum …

To avoid the scaling of the number of qubits with the size of the basis set, one can divide the
molecular space into active and inactive regions, which is also known as complete active …

There is currently no combination of quantum hardware and algorithms that can provide an
advantage over conventional calculations of molecules or materials. However, if or when …

Variational quantum eigensolvers (VQEs) show promise for tackling complex quantum
chemistry challenges and realizing quantum advantages. However, in VQE, the …

We study the performance of our previously proposed projective quantum eigensolver (PQE)
on IBM's quantum hardware in conjunction with error mitigation techniques. For a single …

The field of quantum computing has the potential to transform quantum chemistry. The
variational quantum eigensolver (VQE) algorithm has allowed quantum computing to be …

We present the first quantum-centric simulations of noncovalent interactions using a
supramolecular approach. We simulate the potential energy surfaces (PES) of the water and …

The near-term utility of quantum computers is hindered by hardware constraints in the form
of noise. One path to achieving noise resilience in hybrid quantum algorithms is to decrease …

Preserving human health is of utmost importance, and unrestricted availability of
medications is essential for overall wellness. Pharmaceuticals, which consist of a wide …