The delivery time is 8 days, the imported products have no quality problems, so they can not be returned or replaced within 7 days without reason.
Product parameters
Diffraction limit performance: transmission wavefront, RMS: λ / 14
The conical design can be easily installed and disassembled at an incidence angle of 45 degrees
In order to reduce the diffraction effect, the bending structure is adopted
24 to 31mm working distance with high industry level
ReflX Gamma The reflector is a device which can reduce the P-V value with the original one. It can be used when the incident angle is 45 degrees. The purpose of producing this kind of objective lens is to reach the wave front of λ / 4p-v, and high precision of the mirror is required. Using QED q22-mrf magnetic fluid processing equipment and QED SSI interferometer to process and detect the reflector shape, the precision can reach 1 / 20 Λ P-V value.
The far-field correction lens can be used for focusing, while the finite conjugate lens can be used for imaging. The far-field correction lens can also be used in imaging when a 200 mm secondary transition lens is added. With a filter and a spectroscope, the lens can be used in biomedical and fluorescence microscopy. The standard back intercept of far-field lens is 160mm, which can be interchanged with ordinary DIN lens. It should be noted that due to the limitation of light path structure, the brightness of the image center of these two lenses is low and hazy.
In many cases, an array with an incidence angle greater than 45 degrees is required. To adapt to these unusual angles, HP's relx ™ The use of a conical design provides a distance greater than 6 mm from the object surface.
In order to eliminate the diffraction effect of image plane caused by ruled lines, HP relx ™ A bending design is used.
Model | CCW-884(General specifications) | CCW-885 | CCW-886 | CCW-887 | CCW-888 | CCW-889 |
Name | High precision reflx reflector, far field conjugation, DUV coating | High precision reflx reflector, near field conjugation, DUV coating | High precision reflx reflector, far field conjugation, UV coating | High precision reflx reflector, far field conjugation, UV coating | Reflx, far field mirror | High precision reflx reflector, near-field conjugation, gold-plated film |
Type | Infinity Corrected | Finite Conjugate | Infinity Corrected | Finite Conjugate | Infinity Corrected | Finite Conjugate |
Magnification | 15X | 15X | 15X | 15X | 15X | 15X |
Coating | DUV Enhanced Aluminum (150-11000nm) | DUV Enhanced Aluminum (150-11000nm) | Enhanced Aluminum (200-11000nm) | Enhanced Aluminum (200-11000nm) | Protected Gold (700-11000nm) | Protected Gold (700-11000nm) |
Digital aperture NA | 0.28 | 0.28 | 0.28 | 0.28 | 0.28 | 0.28 |
Wavelength range (nm): | 150 - 11000 | 150 - 11000 | 200 - 11000 | 200 - 11000 | 700 - 11000 | 700 - 11000 |
Working distance (mm): | 23.75 | 23.75 | 23.75 | 23.75 | 23.75 | 23.75 |
Aperture Diameter (mm): | 8.5 | 8.5 | 8.5 | 8.5 | 8.5 | 8.5 |
Coating specification | Ravg >83% @ 150 - 1000nm (typical) | Ravg >83% @ 150 - 1000nm (typical) | Ravg >85% @ 200 - 700nm (typical) | Ravg >85% @ 200 - 700nm (typical) | Ravg >96% @ 700 - 11000nm (typical) | Ravg >96% @ 700 - 11000nm (typical) |
Ravg >94% @ 1000 - 11000nm (typical) | Ravg >94% @ 1000 - 11000nm (typical) | Ravg >76% @ 700 - 1750nm (typical) | Ravg >76% @ 700 - 1750nm (typical) | |||
Ravg >96% @ 1750 - 11000nm (typical) | Ravg >96% @ 1750 - 11000nm (typical) | |||||
Diameter of small transmitting mirror (mm): | 8.8 | 8.8 | 8.8 | 8.8 | 8.8 | 8.8 |
entrance pupil (mm): | 7.4 | 7.4 | 7.4 | 7.4 | 7.4 | 7.4 |
Horizontal field of view, 1 / 2 "sensor | 0.43mm | 0.43mm | 0.43mm | 0.43mm | 0.43mm | 0.43mm |
Horizontal field of view, 2 / 3 "sensor: | 0.59mm | 0.59mm | 0.59mm | 0.59mm | 0.59mm | 0.59mm |
focal length (mm): | 13.3 | 13.3 | 13.3 | 13.3 | 13.3 | 13.3 |
Bracket | RMS | RMS | RMS | RMS | RMS | RMS |
Ambiguity (%): | 27 | 27 | 27 | 27 | 27 | 27 |
Transmission wavefront,RMS: | λ/14 | λ/14 | λ/14 | λ/14 | λ/14 | λ/14 |
Type: | Microscope Objective | Microscope Objective | Microscope Objective | Microscope Objective | Microscope Objective | Microscope Objective |
