センシング・分光
レーザー光で見えないものを可視化する
光は他のあらゆる手段では解明できないものを明らかにします:構造、組成、さらに私たちを取り巻く世界の動きさえも。センシングや分光法において、レーザーは想像しうる最も精密なものさしや時計として機能します。そのスペクトル純度、可変性、超高速タイミングは、基礎的な材料研究から産業用ガス監視、次世代通信研究に至るまで、あらゆる応用分野で不可欠な存在です。
レーザー光によって、目に見えないものは測定可能となるのです。
To move beyond 6G requires new technologies to analyse the transmission channels. Laser-driven THz systems are the answer to push the frontiers of wireless data transmission, achieving communication speeds beyond today’s limits. TOPTICA offers highly resolving THz sources made specifically for communication research and metrology.
Molecules have a spectroscopic fingerprint in the far infrared and terahertz regime. To tap into these characteristic transitions one needs exceptionally precise and narrow band THz sources. This high specificity enables trace detection of industrial or hazardous gases with extreme accuracy and low detection limit.
Many molecules exhibit their strongest absorption features in the mid-infrared region (2–12 μm).
Tunable mid-IR lasers, such as optical parametric oscillators, enable selective, sensitive gas detection for environmental, industrial, and medical applications.
TOPTICA’s TOPO platforms combine broad tunability and narrow linewidth to identify and quantify gases at trace levels.
Precision, tunability, and coherence – The power of light
Whether analyzing gases, mapping ultrafast dynamics, or developing next-generation communication technologies, lasers empower researchers to measure, understand, and control matter at its most fundamental level.
With unrivaled wavelength coverage from THz via mid-IR down to the DUV spectral region, with spectral coherence down to single-Hz levels, TOPTICA laser systems illuminate the path toward a smarter, cleaner, and more connected world.