In 1998, physicist Stephen Hawking asked Belgian cosmologist Thomas Hertog to work with him to develop "a new quantum theory of the Big Bang". What started as a doctoral project for Hertog turned into an intense collaboration that continued until Hawking’s death in 2018. Their answers to the question of how the Big Bang created conditions so perfect for life is what makes the recent book On the Origin of Time: Stephen Hawking’s Final Theory.
In their quest to rethink cosmology from an observers perspective, they had to adopt the strange rules of quantum mechanics that govern the micro-world of atoms and particles. A property called superposition in quantum mechanics suggests that particles can be in several positions at the same time. Only when observed does it randomly pick a specific location. In addition, quantum mechanics also involves random jumps and fluctuations.
Quantum universe
In a quantum universe, therefore, the past and the future emerge from a number of possibilities by continuous observations. These refer to not just the observations done by us human beings, but even the environment or a single particle can "observe". All other possibilities become irrelevant once something has been observed.
Hawking and Hertog discovered that looking back at the earliest stages of the universe through a quantum lens gave it a more Darwinian flavour of variation and selection. In this deeper level of meta-evolution, even the laws of physics change and evolve in sync with the universe that is taking shape.
Laws evolve
While cosmologists usually start by assuming initial conditions and the laws that existed at the time of the Big Bang, Hawking and Hertog suggest that the laws themselves are a result of evolution. This means that the specific set of physical laws that govern our universe can only be understood in retrospect.
When reasoning back in time, therefore, evolution focussed towards greater simplicity and lesser structure continues all the way. This forms the crux of their hypothesis, meaning that ultimately even time and physical laws would fade away.
The study of the origin of the universe over the last 100 years or so has been against the backdrop of immutable laws of nature. Hawking and Hertog suggest that it isn't these laws themselves, but their ability to transmute that dictates terms. If future cosmological observations find evidence of this, Hawking's final theory might well be his greatest scientific legacy.
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