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Chemical treatment improves quantum dot lasers

Doctored dots release laser light more efficiently, use less power

Date:
October 16, 2017
Source:
DOE/Los Alamos National Laboratory
Summary:
One of the secrets to making tiny laser devices such as opthalmic surgery scalpels work even more efficiently is the use of tiny semiconductor particles, called quantum dots. In new research the ~nanometer-sized dots are being doctored, or 'doped,' with additional electrons, a treatment that nudges the dots ever closer to producing the desired laser light with less stimulation and energy loss.
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One of the secrets to making tiny laser devices such as opthalmic surgery scalpels work even more efficiently is the use of tiny semiconductor particles, called quantum dots. In new research at Los Alamos National Laboratory's Nanotech Team, the ~nanometer-sized dots are being doctored, or "doped," with additional electrons, a treatment that nudges the dots ever closer to producing the desired laser light with less stimulation and energy loss.

"When we properly tailor the compositional profile within the particles during their fabrication, and then inject two or more electrons in each dot, they become more able to emit laser light. Importantly, they require considerably less power to initiate the lasing action," said Victor Klimov, leader of the Nanotech team.

In order to force a material to emit laser light one has to work toward a "population inversion," that is, making the number of electrons in a higher-energy electronic state exceed the number that are in a lower-energy state. To achieve this condition normally, one applies an external stimulus (optical or electrical) of a certain power, which should exceed a critical value termed the "optical-gain threshold." In a recent paradigm-changing advance, Los Alamos researchers demonstrated that by adding extra electrons into their specially designed quantum dots, they can reduce this threshold to virtually zero.

A standard lasing material, when stimulated by a pump, absorbs light for a time before it starts to lase. On the way to lasing, the material transitions through the state of "optical transparency" when light is neither absorbed nor amplified. By adding extra charge carriers to their quantum dots, the Los Alamos researchers were able to block absorption and create the state of transparency without external stimulation. This implies that even extremely weak pumping can now initiate lasing emission.

Another important ingredient of this research is a new type of quantum dots with their interiors designed to maintain the lasing-active state for much longer than standard particles do. Normally, the presence of extra electrons would suppress lasing because quantum dot energy is quickly released not as a photon stream but wasteful heat. The new Los Alamos particle design eliminates these parasitic losses, redirecting the particle's energy into the emission channel. "These studies open exciting opportunities for realizing new types of low-threshold lasing devices that can be fabricated from solution using a variety of substrates and optical cavity designs for applications ranging from fiber optics and large-scale lasing arrays to laser lighting and lab-on-a-chip sensing technologies," Klimov said.


Story Source:

Materials provided by DOE/Los Alamos National Laboratory. Note: Content may be edited for style and length.


Journal Reference:

  1. Kaifeng Wu, Young-Shin Park, Jaehoon Lim, Victor I. Klimov. Towards zero-threshold optical gain using charged semiconductor quantum dots. Nature Nanotechnology, 2017; DOI: 10.1038/NNANO.2017.189

Cite This Page:

DOE/Los Alamos National Laboratory. "Chemical treatment improves quantum dot lasers." ScienceDaily. ScienceDaily, 16 October 2017. <www.sciencedaily.com/releases/2017/10/171016132644.htm>.
DOE/Los Alamos National Laboratory. (2017, October 16). Chemical treatment improves quantum dot lasers. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2017/10/171016132644.htm
DOE/Los Alamos National Laboratory. "Chemical treatment improves quantum dot lasers." ScienceDaily. www.sciencedaily.com/releases/2017/10/171016132644.htm (accessed December 21, 2024).

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