Nonlinear optical response of heme solutions.

Yujie Zhang, Huiwen Hao, Limin Song, Haiping Wang, Denghui Li, Domenico Bongiovanni, Jingyan Zhan, Ziheng Xiu, Daohong Song, Liqin Tang, Roberto Morandotti, Zhigang Chen

Optics express 2024 Feb 12

filter terms:

Heme is the prosthetic group for cytochrome that exists in nearly all living organisms and serves as a vital component of human red blood cells (RBCs). Tunable optical nonlinearity in suspensions of RBCs has been demonstrated previously, however, the nonlinear optical response of a pure heme (without membrane structure) solution has not been studied to our knowledge. In this work, we show optical nonlinearity in two common kinds of heme (i.e., hemin and hematin) solutions by a series of experiments and numerical simulations. We find that the mechanism of nonlinearity in heme solutions is distinct from that observed in the RBC suspensions where the nonlinearity can be easily tuned through optical power, concentration, and the solution properties. In particular, we observe an unusual phenomenon wherein the heme solution exhibits negative optical nonlinearity and render self-collimation of a focused beam at specific optical powers, enabling shape-preserving propagation of light to long distances. Our results may have potential applications in optical imaging and medical diagnosis through blood.

Citation

Yujie Zhang, Huiwen Hao, Limin Song, Haiping Wang, Denghui Li, Domenico Bongiovanni, Jingyan Zhan, Ziheng Xiu, Daohong Song, Liqin Tang, Roberto Morandotti, Zhigang Chen. Nonlinear optical response of heme solutions. Optics express. 2024 Feb 12;32(4):5760-5769