Lavender Frostfall
薰衣草色的霜降

✦Extremely Dangerous
Do not approach the purple crystalline deposits. Physical contact may result in unpredictable consequences. According to interdisciplinary studies conducted over the past decade, Lavandula Frost has been officially classified as a sub-perceptual atmospheric anomaly. It is not a typical ice deposition, but a solidified optical residue produced by the refraction of memory-wave frequencies.
Formation Mechanism: Memory Phase Transition
When the human brain generates an incompletely retrieved memory, it releases an ultra–low-frequency M-δ signal (Memory Delta). Under specific humidity and low-light conditions, the M-δ wave can penetrate the skull and interfere with the pre-dawn inversion layer, causing a spectral shift.
This shift produces a violet wavelength between 390–420 nm, which briefly resonates with the outer hydrogen bonds of water molecules. The resulting interaction causes atmospheric moisture to crystallize, forming the pale lavender frost.

✦異常危險
請不要隨意靠近紫色結晶，若接觸當導致不可預測的後果。
根據近十年跨領域的研究，薰衣草色霜降被正式視為特殊大氣異常。
它並非典型的冰晶沉積，而是由記憶波段的折射殘留形成的光學固態現象。
形成機制：記憶能量的相變 當人類腦部出現「未完成提取的記憶」時，會釋放出極低頻的 M-δ 訊號
在特定濕度與低光條件下，M-δ 波可能穿透顱骨，與清晨的逆溫層相互干涉，產生光譜偏移。
該偏移的結果是一種介於 390–420 nm 的紫色波段，與水分子外部的氫鍵短暫共振。
水氣因而結晶，形成淡紫色的霜層。