Scaling to such numbers is a major challenge, as quantum computers suffer from inherent errors that increase rapidly with the number of qubits. For practical quantum computing, highly efficient ...

Abstract: This letter proposes a generalized and controllable-stability conformal method to address stability challenges inherent in conformal finite-difference time-domain algorithms. A quantitative ...

ABSTRACT: This paper presents a comprehensive numerical study of the two-dimensional time-dependent heat conduction equation using the Forward Time Centered Space (FTCS) finite difference scheme. The ...

In molecular dynamics simulations of water systems, where water molecules are treated as rigid bodies, it is important to use a small time-step. This small time-step helps ensure that the average ...

Researchers have developed a new protocol for benchmarking quantum gates, a critical step toward realizing the full potential of quantum computing and potentially accelerating progress toward ...

ZTEM (Z-Axis Tipper Electromagnetic System) is a frequency-domain airborne electromagnetic exploration method that utilizes natural field sources. This method is highly efficient and capable of ...

Many researchers believe that the only way to build unambiguously useful quantum computers is to enable them to correct their own errors. A breakthrough in December from researchers at Google Quantum ...

Abstract: In this letter, a 2-D parameter-optimized spatial finite-difference temporal differential (SFDTD) method is presented, referred to as the PO-SFDTD method. First, the dispersion ...

Paul Gronke receives funding from Elections Trust Initiative and Democracy Fund. He is a member of the Advisory Board of the MIT Election Data and Science Lab (MEDSL) and a member of the Circle of ...