Living the Laser Life

AuburnEngineers
3 May 201902:31

Summary

TLDRDr. Masoud Mahjouri Samani, an assistant professor at Auburn University's Department of Electrical and Computer Engineering, leads cutting-edge research in laser-assisted nano engineering. His work focuses on laser-based synthesis, processing, and characterization of materials, particularly atomically thin quantum materials. With a vision to make Auburn a national hub for laser technology, he aims to advance additive manufacturing and cultivate a skilled workforce for the future. Dr. Samani believes lasers will play a pivotal role in shaping the next generation of scientific, engineering, and technological breakthroughs.

Takeaways

  • 😀 Lasers offer unmatched flexibility, precision, and control in solving engineering and scientific problems.
  • 😀 Lasers are increasingly essential in various engineering and technological applications.
  • 😀 Masoud Mahjouri Samani is an assistant professor at Auburn University, specializing in laser-assisted nano engineering.
  • 😀 The Laser Assisted Nano Engineering Lab focuses on three key research areas: laser-based synthesis, processing, and characterization of materials.
  • 😀 Auburn University's lab has a unique capability to synthesize atomically thin quantum materials or two-dimensional materials using lasers.
  • 😀 The lab is pioneering in synthesizing quantum materials with lasers, making it a leading institution in this field.
  • 😀 In additive manufacturing, one of the key challenges is understanding real-time interactions between lasers and materials, especially powders.
  • 😀 The lab is developing advanced techniques to study laser interactions with powders in real-time, a unique approach in the field.
  • 😀 Masoud's goal is to establish a world-class laser lab at Auburn University, positioning it as a hub for laser research and applications across the nation.
  • 😀 The lab aims to contribute to the development of a skilled workforce by educating students in laser technologies, ensuring they can drive future advancements.
  • 😀 Lasers are expected to play a crucial role in the future of science, engineering, and technology, facilitating the transition into new technological eras.

Q & A

  • What is the main focus of Dr. Masoud Mahjouri Samani's research?

    -Dr. Masoud Mahjouri Samani's research primarily focuses on laser-assisted nanoengineering, including three major areas: laser-based synthesis, laser-based processing, and laser-based characterization of various materials.

  • What makes Auburn University’s laser-based research unique?

    -Auburn University’s laser-based research is unique in its ability to synthesize atomically thin quantum materials, or two-dimensional materials, which is a pioneering capability that Dr. Samani is developing at the university.

  • How does Dr. Samani’s research contribute to the field of additive manufacturing?

    -Dr. Samani’s research in additive manufacturing focuses on understanding what happens in real-time when lasers interact with powders during the manufacturing process, using innovative techniques that are being developed at Auburn University.

  • What is Dr. Samani's goal regarding laser research facilities at Auburn University?

    -Dr. Samani aims to establish a cutting-edge laser lab at Auburn University, making it a central hub for laser research in Alabama and beyond, with the intention of positioning Auburn as a leader in laser technology.

  • How does Dr. Samani envision Auburn University’s role in laser research on a national scale?

    -Dr. Samani envisions Auburn University becoming a laser research hub that serves not only the state of Alabama but also the entire country, contributing to national advancements in laser science and technology.

  • What does Dr. Samani see as the future of lasers in science and technology?

    -Dr. Samani believes lasers will be one of the key components driving the future of science, engineering, and technology, playing a vital role in enabling advancements over the next five to ten years and beyond.

  • How is Dr. Samani contributing to workforce development in the field of laser technology?

    -Dr. Samani is focused on educating students in laser-based technologies, ensuring they acquire the necessary skills to contribute to the future of laser technology and related fields.

  • What specific research technique is Dr. Samani developing at Auburn University?

    -Dr. Samani is developing laser-based techniques to analyze and understand the interaction between lasers and powders in real-time, a unique approach that aims to improve the additive manufacturing process.

  • Why is the synthesis of quantum materials important in Dr. Samani’s research?

    -The synthesis of quantum materials is important because these materials, especially atomically thin or two-dimensional materials, have unique properties that can revolutionize various fields, from electronics to energy storage, and are a key area of Dr. Samani’s innovative research.

  • What is the broader impact of Dr. Samani's research on the scientific community?

    -Dr. Samani's research has the potential to significantly impact the scientific community by advancing the synthesis and application of quantum materials, improving additive manufacturing processes, and training a skilled workforce that will drive future technological innovations.

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Étiquettes Connexes
Laser ResearchQuantum MaterialsNano EngineeringAuburn UniversityAdditive ManufacturingTech InnovationEngineeringFuture TechnologyAdvanced MaterialsWorkforce Education
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