Introduction: Redefining Decentralization, Security, and Time
QLN is an exploration into the intersection of quantum physics, distributed systems, and user-driven dynamic platform designs. Traditional blockchains (while revolutionary,) suffer inherent limits based upon classic computing methodologies. Those designs also face scalability challenges, in data management techniques by their “time based” (linear) nature. Most blockchains rely on either external or an artificial timeline with a digital time stamp implementation mechanism that creates both bottlenecks, and also introduce security vulnerabilities through time.. QLN directly addresses these inherent challenges using new architectural design methodologies that do not rely upon external timelines by creating new definitions and meaning to core building blocks. It focuses more on using concepts based upon fundamental scientific principles. All system actions form a dynamic representation of temporal signature (which reflects all operational details of both "internal to a quantum system/state”, as well as their "external environment properties as they dynamically interact through periods of time and various system level/user defined activities"). The underlying systems design principles focus on using every component as a potential for improvement as they naturally interact with their various systems operational properties (including user base participation across its platforms by treating interactions as ‘data generator”). This perspective moves far beyond limitations of today’s system designs based upon classical concepts to bring a new way of understanding technology, systems operation as well as security concepts (with ethically built-in safeguards in every interaction of that system.)