
Cubes Séparateurs de Faisceau Polarisants pour l’Informatique Quantique
NouveauThese beamsplitters are available in a range of commonly used, application-specific wavelengths across the UV to NIR spectrum, covering the central wavelengths of commonly used ions (Ytterbium/Strontium/Calcium) energy levels to provide Rydberg excitation, Doppler cooling, and other operations such as Raman effects, trapping of ions, and others.

Lames à Retard de Demi-Onde pour l’Informatique Quantique
NouveauThese waveplates are available in a range of commonly used, application-specific wavelengths across the UV to NIR spectrum, covering the main wavelengths of commonly used ions (Ytterbium/Strontium/Calcium). They offer a retardance of λ/2 and a retardance accuracy of λ/200.

Lames à Retard en Quartz
These waveplates are available in a range of commonly used, application-specific wavelengths across the UV to NIR spectrum, covering the main wavelengths of commonly used ions (Ytterbium/Strontium/Calcium). They offer a retardance of λ/2 and a retardance accuracy of λ/200.

Mini-Isolateurs Optiques en Espace Libre
NouveauMini Free-Space Optical Isolators are compact devices, measuring less than 1 cm³, and feature an integrated Faraday rotator. They provide high isolation, transmission, and power densities, effectively reducing feedback in diode laser systems and blocking reflections from free-space fiber coupling.

Montures Miroirs Optiques Cinématiques en Acier Inoxydable

These mounts are constructed from stainless steel, offering a Coefficient of Thermal Expansion (CTE) lower than the aluminum TECHSPEC Kinematic Optical Mirror Mounts; lower CTE ensures higher pointing stability in high-power/higher-temperature applications. Preinstalled locking collars, integrated into the adjustment screw bushings, can be used to lock the mount’s tip and tilt position in shock and vibration situations and provide additional pointing stability under temperature gradient conditions. ½ inch mounts offer a small form factor for scalability.

Objectifs Mitutoyo à Compensation d'Épaisseur de Verre et Correction à l’Infini
These objectives allow objects to be observed through 3.5 mm thick glass, making them perfect for imaging in applications such as vacuum cells, optical traps, and cold atom environments. Their infinity-corrected, plan-apochromatic designs ensure excellent color accuracy and produce a flat image surface across the entire field of view.

Miroirs Laser de Précision à Large Bande

These highly reflective mirrors offer performance and value for UV, visible, and NIR beam steering applications. The broadband dielectric enhanced silver coatings feature >98% reflectivity from 450nm to 12μm wavelengths at incident angles from 0 - 45°. They are ideal for demanding laser applications requiring high laser damage thresholds, including laser scanning and beam steering.

Lentilles Achromatiques Infrarouge Proche (NIR)

Near-IR (NIR) Achromatic Lenses minimize or eliminate chromatic aberration for wavelengths between 750 and 1100nm. The achromatic design also helps minimize spherical aberrations across multiple laser wavelengths.

Détecteurs de Puissance et d’Énergie sans Fil d’Edmund Optics®
NouveauLaser Power Meters are specifically designed to analyze lasers across a range of wavelengths, pulse widths, and intensities. These meters and detectors come in various wavelength ranges and sensitivity levels, allowing for customization to meet a wide array of laser measurement needs.
ou consulter les numéros d’autres pays
facile à utiliser
entrer les numéros de stock pour commencer
Copyright 2023 | Edmund Optics, Ltd Unit 1, Opus Avenue, Nether Poppleton, York, YO26 6BL, UK
POLITIQUE DE CONFIDENTIALITÉ | POLITIQUE DE COOKIES | CONDITIONS GÉNÈRALES | CONDITIONS GÉNÈRALES B2C | MENTIONS LÉGALES | ACCESSIBILITÉ
L'entreprise Edmund Optics GmbH en Allemagne agit comme un mandataire d'Edmund Optics Ltd au Royaume-Uni. Le titulaire du contrat est Edmund Optics Ltd au Royaume-Uni.