News Release

PT-symmetric lasers beyond proof-of-concept demonstrations

Peer-Reviewed Publication

Light Publishing Center, Changchun Institute of Optics, Fine Mechanics And Physics, CAS

Design and characteristics of the quasi-PTS laser.

image: a. Isospectral engineering can establish quasi or modal PT-symmetry by enforcing a resonant interaction between the second-order mode of the primary potential and the fundamental mode of its lossy partner by a careful choice of cavity dimensions. In this configuration, electrical pumping of the main potential allows for single-mode lasing. b. an SEM image of the laser facet. c. LI curve comparing a standard single waveguide laser to a quasi PT-symmetric design. d. beam quality factor measurements for standard and PT-symmetric lasers versus power. view more 

Credit: by Enes Şeker, Babak Olyaeefar, Khalil Dadashi, Serdar Şengül, Mohammad Hosain Teimourpour, Ramy El-Ganainy, and Abdullah Demir

Semiconductor lasers are ubiquitous in modern technology, but creating novel device architectures remains a challenge due to competing optimization goals. One of the major hurdles is that increasing the width of the laser waveguide can lead to degraded beam quality due to the emergence of higher-order modes. Existing techniques to overcome this obstacle may induce losses on the fundamental mode, demanding alternative strategies.

 

Non-Hermitian photonics has recently emerged as a promising avenue to enhance laser performance. Among these concepts, parity-time (PT) symmetry has shown potential to suppress higher-order modes and enable single-mode operation. The interplay between non-Hermitian effects and other symmetry concepts has also been investigated to develop new designs. However, it is uncertain if these concepts can be extended to realistic devices due to thermal effects and resonant frequency shifts induced by higher carrier concentrations and optical powers.

 

In a new study published in Light: Science & Applications (LSA), a team of scientists led by Asst. Prof. Abdullah Demir from UNAM - Institute of Materials Science and Nanotechnology, Bilkent University, have successfully developed a novel electrically pumped edge-emitting laser chip with unprecedented performance. This large-area quasi PT-symmetric laser has single-mode output power levels of 400 mW while maintaining beam quality comparable to narrow waveguide laser devices, and operates at room temperature without cooling. The device consists of two coupled waveguides, with the partner potential supporting only one mode engineered to have the same propagation constant as the second-order mode of the main waveguide. This allows for selective pumping of the fundamental mode via current injection into the main waveguide, which enables lasing in the single-mode regime. The team verified the electrical and optical characteristics of the device using standard measurements.


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