no code implementations • 31 Jan 2022 • Quanlong Wang, Richie Yeung, Mark Koch
Here we elevate ZX to an analytical perspective by realising differentiation and integration entirely within the framework of ZX-calculus.
2 code implementations • 13 Oct 2021 • Quanlong Wang, Richie Yeung
In linear algebra applications, elementary matrices hold a significant role.
no code implementations • 30 Jun 2021 • Camilo Miguel Signorelli, Quanlong Wang, Bob Coecke
We cast aspects of consciousness in axiomatic mathematical terms, using the graphical calculus of general process theories (a. k. a symmetric monoidal categories and Frobenius algebras therein).
no code implementations • 22 Feb 2021 • Bob Coecke, Dominic Horsman, Aleks Kissinger, Quanlong Wang
This paper is a `spiritual child' of the 2005 lecture notes Kindergarten Quantum Mechanics, which showed how a simple, pictorial extension of Dirac notation allowed several quantum features to be easily expressed and derived, using language even a kindergartner can understand.
no code implementations • 31 Jul 2020 • Camilo Miguel Signorelli, Quanlong Wang, Ilyas Khan
Scientific studies of consciousness rely on objects whose existence is assumed to be independent of any consciousness.
3 code implementations • 15 Feb 2016 • Miriam Backens, Simon Perdrix, Quanlong Wang
The stabilizer ZX-calculus is a rigorous graphical language for reasoning about quantum mechanics. The language is sound and complete: a stabilizer ZX-diagram can be transformed into another one if and only if these two diagrams represent the same quantum evolution or quantum state.
Quantum Physics Logic in Computer Science