| Facility | Large Hadron Collider (LHC) |
| Location | |
| Operator | |
| Controversy | Global controversy, heightened security and regulation for future time travel research |
| Consequences | Disruption of space-time continuum, profound changes to timeline |
| Experiment Date | 2028 |
| Ongoing Effects | Conspiracy theories and speculation about the true nature and implications of the incident |
| Experiment Result | First known successful human time travel |
On July 12, 2028, scientists at the CERN laboratory in Geneva, Switzerland, conducted an experiment at the facility's Large Hadron Collider (LHC) that resulted in the first known successful demonstration of human time travel. However, the experiment had disastrous unintended consequences that reverberated through the timeline, leading to a global crisis.
CERN's research team, led by physicist Dr. Elena Petrova, had been working for years on developing a method to open a stable wormhole that could transport matter through the space-time continuum. After numerous failed attempts, they believed they had finally cracked the code.
On the fateful day in 2028, the LHC was powered up to record-breaking energy levels as part of the experiment. The goal was to create a miniature black hole that could then be harnessed to rip open a gateway to the past. Against the advice of many of her colleagues, Dr. Petrova decided to step into the experimental chamber herself, becoming the first human subject.
The experiment appeared to be a success at first, as instruments detected the creation of a stable wormhole. However, what followed was sheer pandemonium. The wormhole rapidly destabilized, causing massive energy fluctuations that knocked out power across much of Western Europe. Worse, when the wormhole collapsed, it left Dr. Petrova missing, presumed lost in the past.
The unintended consequences of the CERN experiment were soon felt around the world. Within days, reports began circulating of major historical events and details changing - the outcomes of past wars, the existence of countries, the lifespans of famous figures. It became clear that Dr. Petrova's trip through the wormhole had altered the timeline in profound ways.
Chaos erupted as governments, militaries, and populations grappled with the staggering implications. Longstanding enemies suddenly found themselves allies, and vice versa. Major scientific and technological breakthroughs were suddenly erased from history. Conspiracy theories abounded as people struggled to make sense of the disruptions.
In the years following the 2028 CERN incident, the global community struggled to respond. An international committee was convened to investigate the disaster and develop protocols for any future time travel experimentation. Strict new security measures were implemented at CERN and other physics laboratories around the world.
However, the full ramifications of the timeline changes continued to unfold in unpredictable ways. Political, economic, and social systems were severely destabilized as the world grappled with its new reality. Entire industries collapsed or were transformed, geopolitical alliances shifted, and cultural norms were upended.
To this day, conspiracy theorists and amateur time travel enthusiasts obsess over the 2028 CERN incident, speculating wildly about the true extent of the timeline changes and the ultimate fate of Dr. Petrova. The scientific community remains bitterly divided, with some asserting that time travel must be banned entirely while others believe it holds the key to repairing the damage. One thing is certain: the world has never been the same since that fateful day in 2028 when humanity first pierced the veil of the space-time continuum.
