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Devices based on optical thermodynamics can guide light without the need for switches

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2025-10-15 10:29:36
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Researchers from Ming Hsieh's Department of Electrical and Computer Engineering at the University of Southern California have designed the first optical device that follows the emerging optical thermodynamic framework.

The work, reported in Nature Photonics, introduces a new way of routing light in nonlinear systems—meaning systems that do not require switches, external control, or digital addressing. Instead, light naturally finds its way through the device, guided by simple thermodynamic principles.

Universal routing is a familiar engineering concept. In mechanics, a manifold valve directs inputs to a chosen outlet. In digital electronics, a Wi-Fi router or an Ethernet switch in a data center directs information from many input channels to the correct output port.

When it comes to light, the same problem is more challenging. Conventional optical routers rely on complex arrays of switches and electronic control to toggle pathways. These approaches add technical difficulty, while limiting speed and performance. The photonics team at USC’s Viterbi School of Engineering has now shown that there is another way. Their idea can be likened to a marble maze that arranges itself.

Normally, you’d have to lift barriers and guide a marble step-by-step to make sure it reaches its destination—the right hole. In the USC team’s device, however, the maze is built so that no matter where the marble is dropped, it will roll on its own toward the right place. This is exactly how light behaves: it finds the correct path naturally, by following the principles of thermodynamics.

 



Principle of “optical thermodynamics” that routes light without switches


Potential impact

The implications of the new approach extend beyond the laboratory. As computing and data processing continue to push the limits of traditional electronics, various companies—including chip designers such as NVIDIA and others—are exploring optical interconnects as a way to move information faster and more efficiently.

By providing a natural, self-organizing way to direct light signals, however, optical thermodynamics could accelerate the development of such technologies. Beyond chip-scale data routing, the framework may also influence telecommunications, high-performance computing, and even secure information processing, offering a path toward devices that are both simpler and more powerful.

Nonlinear multimode optical systems are often dismissed as chaotic and unpredictable. Their intricate interplay of modes has made them among the hardest systems to simulate—let alone design for practical use. Yet, precisely because they are not constrained by the rules of linear optics, they harbor rich and unexplored physical phenomena.

Recognizing that light in these systems undergoes a process akin to reaching thermal equilibrium, the USC researchers developed a theory of “optical thermodynamics”. This framework captures how light behaves in nonlinear lattices using analogs of familiar thermodynamic processes such as expansion, compression, and even phase transitions.

Light routes itself

The principle is inspired by thermodynamics. Just as a gas undergoing what is known as a Joule-Thomson expansion redistributes its pressure and temperature before naturally reaching thermal equilibrium, light in the USC device experiences a two-step process: first an optical analog of expansion, then thermal equilibrium. The result is a self-organized flow of photons into the designated output channel – without any need for external switches.

“Beyond routing, this framework could also enable entirely new approaches to light management, with implications for information processing, communications, and the exploration of fundamental physics,” said lead author, Hediyeh M. Dinani, a Ph.D. student in the Optics and Photonics Group lab at USC Viterbi.

The Steven and Kathryn Sample Chair in Engineering, and Professor of Electrical and Computer Engineering at USC Viterbi Demetrios Christodoulides added, “What was once viewed as an intractable challenge in optics has been reframed as a natural physical process—one that may redefine how engineers approach the control of light and other electromagnetic signals.”

Source: optics.org

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