Add to ORKGA lamellar mirror made from Si wafer by anisotropic chemical etching and coated with gold has been demonstrated as an intracavity wavelength selector for the far-infrared p-Ge laser. The etching process produces rectangular grooves with precisely predetermined depth and 100 nm surface smoothness. This lamellar-grating structure defines the resonant laser wavelength within the broad tuning range of the p-Ge laser. Single wavelength laser operation with this mirror has been demonstrated on the third-order resonance with ail active cavity finesse of at least 0.09. (C) 2004 Elsevier Ltd. All rights reserved
Multi-layer mirrors capable of>99.9 % reflectivity at ~100 µm wavelengths were constructed using ...
Multi-layer mirrors capable of \u3e99.9% reflectivity at ∼100 μm wavelengths were constructed using ...
Innovations in intracavity wavelength selection in the range 1.5 to 4.2 THz and compact control elec...
A lamellar mirror made from Si wafer by anisotropic chemical etching and coated with gold has been d...
A lamellar mirror made from Si wafer by anisotropic chemical etching and coated with gold has been d...
An etched silicon gold plated lamellar mirror is demonstrated as a fixed-wavelength intracavity sele...
A thin two-side polished silicon etalon is demonstrated as a fixed-wavelength intracavity selector f...
A thin two-side polished silicon etalon is demonstrated as a fixed-wavelength intracavity selector f...
An electrically-controlled tunable intracavity frequency selector is demonstrated for the far-infrar...
A robust metal-free intracavity fixed-wavelength selector for the cryogenically cooled far-infrared ...
An electrically-controlled tunable intracavity frequency selector is demonstrated for the far-infrar...
Multilayer mirrors capable of \u3e 99.9% reflectivity in the far infrared (70-200 mu m wavelengths) ...
Multilayer mirrors capable of \u3e99.9% reflectivity in the far infrared (70-200 μm wavelengths) wer...
Multilayer mirrors capable of \u3e99.9% reflectivity in the far infrared (70-200 μm wavelengths) wer...
Multi-layer mirrors capable of>99.9 % reflectivity at ~100 µm wavelengths were constructed using ...
Multi-layer mirrors capable of>99.9 % reflectivity at ~100 µm wavelengths were constructed using ...
Multi-layer mirrors capable of \u3e99.9% reflectivity at ∼100 μm wavelengths were constructed using ...
Innovations in intracavity wavelength selection in the range 1.5 to 4.2 THz and compact control elec...
A lamellar mirror made from Si wafer by anisotropic chemical etching and coated with gold has been d...
A lamellar mirror made from Si wafer by anisotropic chemical etching and coated with gold has been d...
An etched silicon gold plated lamellar mirror is demonstrated as a fixed-wavelength intracavity sele...
A thin two-side polished silicon etalon is demonstrated as a fixed-wavelength intracavity selector f...
A thin two-side polished silicon etalon is demonstrated as a fixed-wavelength intracavity selector f...
An electrically-controlled tunable intracavity frequency selector is demonstrated for the far-infrar...
A robust metal-free intracavity fixed-wavelength selector for the cryogenically cooled far-infrared ...
An electrically-controlled tunable intracavity frequency selector is demonstrated for the far-infrar...
Multilayer mirrors capable of \u3e 99.9% reflectivity in the far infrared (70-200 mu m wavelengths) ...
Multilayer mirrors capable of \u3e99.9% reflectivity in the far infrared (70-200 μm wavelengths) wer...
Multilayer mirrors capable of \u3e99.9% reflectivity in the far infrared (70-200 μm wavelengths) wer...
Multi-layer mirrors capable of>99.9 % reflectivity at ~100 µm wavelengths were constructed using ...
Multi-layer mirrors capable of>99.9 % reflectivity at ~100 µm wavelengths were constructed using ...
Multi-layer mirrors capable of \u3e99.9% reflectivity at ∼100 μm wavelengths were constructed using ...
Innovations in intracavity wavelength selection in the range 1.5 to 4.2 THz and compact control elec...