Affiliated Research
Why did we name our company quantumReality?
We, the founders, came together from diverse backgrounds.
One of us had a strong footprint in brand building and marketing, the other had a multi-decade long history in research and development with a strong background in quantum theory.
Sitting together, brainstorming, and combining our thoughts and backgrounds we came up with a number of points on quantum and reality:
Exploring New Realms
Quantum signifies the exploration of new frontiers or realms, much like how quantum mechanics opened up a whole new understanding of the microscopic world.
This emphasizes and reflects our company’s mission to delve into uncharted territories or make strong impacts to a particular field.
Brand Identity and Marketing
From a marketing perspective, the name quantumReality is likely to stand out and be memorable. It suggests a forward-thinking, innovative, and sophisticated brand identity.
Philosophical Underpinnings
The name reflects a philosophical stance or a vision about the nature of reality as informed by quantum theory, which often challenges our conventional and common-sense notions of reality.
At the end of that brainstorming session in 2011, we did incorporate our quantumReality GmbH.
More projects
J. Hertel: New Numerical Evidence for Gödelian Hypercomputing Minds
Tribute to Kurt Gödel 2020 13 – 15 January 2020, Brno, the Czech Republic
physics.muni.cz/~godel/tribute2020
J. Hertel: Hypercomputing Minds: New Numerical Evidence
16TH CONGRESS OF LOGIC, METHODOLOGY AND PHILOSOPHY OF SCIENCE AND TECHNOLGY, PRAGUE,AUGUST 05-10, 2019
Volume of Abstracts
J. Hertel: Inductive Complexity of Goodstein’s Theorem
J. Hertel: Frege on the iPad, Talk and iPad Software Demo
14TH CONGRESS OF LOGIC, METHODOLOGY AND PHILOSOPHY OF SCIENCE NANCY, JULY 19-26, 2011
Volume of Abstracts
J. Hertel: Computing the Uncomputable Rado Sigma Function
J. Hertel: On the Difficulty of Goldbach and Dyson Conjectures
J. Hertel: Goodstein Function in Terms of Fast-Growing Function Hierarchies
The Wolfram Demonstrations Project, 2008
wolfram.com – Goodstein Functions in terms of …
J. Hertel: Computing the Uncomputable Rado Sigma Function
J. Hertel: Computing a Fixed Point on a Horizon of Truth,
in: Kurt Goedel Society, Collegium Logicum IX, p.25-29, 2006
Publications of the KGS
J. Hertel: Reversible Computation and a Toolkit for Quantum Turing Machine Simulation
J. Hertel: Quantum Turing Machine Simulator
NOTE
No active research 1982-2001 while working in IT
J. Hertel: Local Quantum Theory and Fields At A Point
DESY Report T-81-01, 1981
K. Fredenhagen, J. Hertel: Local Algebras of Observables and Point-Like Localized Fields
J. Hertel: On Currents Associated with Topological Charges
DESY Report 76/59, 1976