Level C (Ahli)
In the aftermath of a controversial quantum computing breakthrough, Dr. Amelia Rothschild encountered an anomaly that defied conventional physics. Her quantum processor, designed to simulate complex molecular interactions, began producing data patterns that perfectly mirrored themselves across temporal dimensions.
The palindromic nature of these patterns suggested something unprecedented: causality itself might be bidirectional at the quantum level. Initially dismissed by peers as experimental error, the phenomenon persisted across multiple controlled trials.
The implications were staggering – if cause and effect could operate simultaneously in both temporal directions, the fundamental assumptions underlying scientific determinism would require radical revision. As Rothschild delved deeper into the phenomenon, she discovered unsettling correlations between her findings and ancient philosophical concepts of circular time.
The research attracted attention from diverse fields – theoretical physics, philosophy, even theological studies – each finding reflections of their own fundamental questions in her data. The quantum palindrome, as it became known, challenged humanity’s linear perception of reality itself.
Jawablah Pertanyaan Ini Berdasarkan Cerita!
Why were Dr. Rothschild’s findings initially dismissed by her peers?
How did the quantum palindrome challenge existing scientific understanding?
