- No Data
English
- English
- 简体中文
- 繁体中文
- Français
- Русский
- Italiano
- 日本語
- 한국어
- Português
- Deutsch
- Español
- Türkçe
- Ελληνικά
- Nederlands
- Tiếng Việt
- Polski
English
The carbon dioxide laser market is expected to reach 7.1 billion US dollars by 2033
4
2023-10-27 16:44:22
The carbon dioxide laser market will show significant elasticity and sustained growth in the next decade, with a compound annual growth rate of 3.6% expected from 2023 to 2033.
This impressive prediction indicates the persistent demand and expanding application of carbon dioxide lasers in various industries.
By the end of 2033, the market is expected to reach a significant valuation of $7.1 billion, highlighting its crucial role in cutting-edge technology, medical procedures, manufacturing processes, and scientific research.
The continuous rise of the carbon dioxide laser market proves its key position in the field of laser technology, ensuring its relevance and influence in the future.
In the dynamic landscape of the carbon dioxide laser industry, a fascinating trend is emerging, centered around the rapid integration of fiber lasers.
As the demand for advanced and high-performance laser systems continues to surge in various industries, the integration of carbon dioxide lasers and fiber laser technology has become a game changer.
Source: Laser Network
Related Recommendations
Researchers have manufactured chip based optical resonators that can operate in the ultraviolet (UV) and visible light regions of the spectrum
Figure: Researchers have created a chip based ring resonator that operates in the ultraviolet and visible light ranges and exhibits record low UV loss. The resonator (small circle in the middle) is displayed as blue light.Researchers have created chip based photonic resonators that can operate in the ultraviolet (UV) and visible regions of the spectrum and exhibit record low UV loss. The ne...
2023-10-06French silicon optical company Scintil realizes the integration of III-VI DFB lasers and amplifiers with standard silicon optical technology
Recently, French silicon photonics company Scintil Photonics announced an exciting collaboration, successfully integrating III-V-DFB lasers and amplifiers with standard silicon photonics technology in the production of Israeli semiconductor company Tower Semiconductor. This milestone collaboration marks a crucial step for Scintil in strengthening its supply chain, bringing new possibilities to com...
03-05Laser Uranium Enrichment Company (GLE) accelerates development
Paducah, located in western Kentucky, may become the location of the world's first commercial facility to adopt this technology.Since 2016, Global Laser Enrichment Company (GLE) has partnered with the US Department of Energy to use its unique molecular process to concentrate 200000 tons of depleted uranium "tails" stored at the former Padiuka gas diffusion plant in western Kentucky.After years of ...
06-22Research Progress in High Efficiency Supercontinuum Spectra in Specific Wavebands Made by Shanghai Optics and Machinery High Power Laser Unit Technology Laboratory
Recently, the High Power Laser Unit Technology Laboratory of Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, has made progress in research on high efficiency supercontinuum in specific bands. The relevant research results were published in the Journal of Lightwave Technology under the title of "Strong Anti Stokes and flat supercontinuum in specified band based on non ...
2023-10-17Vast's Haven-1 program has become the world's first commercial space station equipped with SpaceX Starlink lasers
Vast's Haven-1 program will become the world's first commercial space station, equipped with SpaceX's Starlink laser terminal, providing connections to its crew users, internal payload racks, external cameras, and instruments at speeds of gigabits per second and low latency.Max Haot, CEO of Vast, said: "If you need to provide high-speed, low latency, and continuous Internet connection on the orbit...
04-10