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What Does Quantum Mechanics Have to Do with Modern Corporate Finance?

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WAS HAT QUANTENMECHANIK MIT MODERNEM CORPORATE FINANCE 1

Table of Contents

Exactly 100 years ago, in 1925, Werner Heisenberg published his groundbreaking article:
👉 “On the Quantum-Theoretical Reinterpretation of Kinematic and Mechanical Relations”
Without these foundations of quantum mechanics, key technologies of our time would be inconceivable: lasers, MRI, mobile communications, computers—even quantum computers.

🎲 Randomness Instead of Determinism: The New Thinking in Physics

Quantum mechanics breaks radically with classical thinking. Instead of exact predictions, it allows only probabilistic statements.

The Uncertainty Principle

The famous uncertainty principle states: the position and momentum of a particle cannot be determined simultaneously with precision.
The behavior of a particle can only be described as a distribution in space and time—randomness is not a measurement error, but a fundamental principle.

📈 Randomness and Stochastics in Modern Corporate Finance

This way of thinking is no longer purely physics. A similar transformation is taking place in modern corporate finance:
– The future cannot be planned deterministically
– Planning is based on Monte Carlo simulations, stochastic models, and risk quantification
– Company valuation is performed using scenario-based expected values
We accept today that a “point value” has little meaning. The value of a company is a stochastic concept that emerges from the respective state of information—similar to the quantum mechanical measurement process.

The Connection Between Risk Management and Corporate Finance

Why this requires a shift in thinking:
The connection between risk management and corporate finance leads to a paradigm shift:
  • Planning must incorporate uncertainty
  • Strategies must be adaptable and resilient to negative scenarios
  • We must learn to deal constructively with uncertainty and volatility
A small consolation for those who wish to hold on to deterministic models. Even Albert Einstein had difficulty with the idea that quantum mechanics only allows probabilistic statements.
He believed: Quantum mechanics is not complete. There must be “hidden variables” that—if known—could explain behavior deterministically.
Hence his famous statement: “God does not play dice,” where God serves as a metaphor for nature or the universe and “playing dice” as a metaphor for pure randomness.
The quantum physicist Niels Bohr is said to have responded: “Stop telling God what to do.” Bohr accepted fundamental randomness and uncertainty as an integral part of nature.

Conclusion and Outlook

The debate from that time is more relevant than ever—only the playing field has shifted: from atomic physics to corporate strategy and risk analysis.

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