| Timeline | Alternate |
| Applications | Wormhole technology |
| Key discoveries | New particles • Time manipulation • Dark Current |
| Instruments used | Holographic model • Particle collider |
| Associated fields | Fundamental particle physics • Neutrino physics • Gravimetrics |
| Important projects | Large Hadron Collider |
In this alternate timeline, the early 1700s led to the discovery of neutrons by French physicist René Descartes. These mysterious particles had weak interactions with other particles and lacked electric charge. Their elusive nature made them difficult to detect and harness. Over time, scientists realized the importance of neutrons in various fields such as fusion power and medical imaging, suggesting they held the key to many future scientific and technological advances.
The 18th century revealed that neutrons had unexpected properties, most notably their ability to manipulate temporal mechanics. This discovery opened up possibilities for exploration in time travel and had cascading implications for various fields of study, particularly Quantum Physics and Astrophysics.
The Large Hadron Collider played an essential role in our understanding of neutrons. The LHC was a monumental scientific project that provided insight into new particles and revealed some of the unique properties of neutrons.
Neutron physics aided in further discoveries in particle physics, especially the study of neutrinos. In the 21st century, the discovery of the "Dark Current" – an undetected electromagnetic force that warped spacetime – was made possible by the study of neutrinos. This revelation has played a significant role in the developments of gravimetrics and wormhole technology.
Astrophysics today is a thriving field that significantly employs the knowledge of neutrons and the Dark Current. From particle-beam weapons to time travel, gravimetrics, and wormhole technology, this field is inseparable from the fundamentals of neutron physics. Research continues to unlock even more understanding and innovations shaping the future of scientific and technological advancements.
