Key Takeaways: Photonic Integrated Circuits (PICs) use photons instead of electrons for faster and more efficient data processing. PICs find applications in various fields including communication, biosensing, and quantum computing, promising significant advancements in these areas. While PICs offer advantages, challenges like higher costs and limited availability still exist, yet ongoing development could lead to […]
Read moreKey Takeaways FLIM Advances Diagnostics: FLIM offers precise views of living cells and proteins, aiding diagnoses and enhancing understanding of diseases like cancer. TCSPC Measures Fluorescence Lifetimes: TCSPC captures differences in fluorescence lifetime, enabling picosecond-level measurements crucial for medical imaging. FRET Enhances Protein Studies: FRET microscopy, combined with FLIM, provides detailed insights into protein interactions, […]
Read moreProduct Highlights: Aspheric lenses correct spherical aberration, improving image quality. They feature varying curvature, unlike spherical lenses and spherical elements enhancing, enhancing precision. Manufacturing methods include precision glass molding, precision polishing, and diamond turning, each with unique benefits and limitations. Material selection depends on application needs and manufacturing process compatibility. Avantier offers comprehensive custom […]
Read moreKey Takeaways Achromatic lenses, or achromats, correct chromatic aberration in optical systems by aligning specific wavelengths. Comprising two or more elements, typically red and blue, these lenses improve image quality in applications like cameras and microscopes. While effective, achromatic lenses may have limitations, such as residual chromatic aberration and complex manufacturing processes, […]
Read moreAspheric lenses offer significant advantages over traditional spherical lenses due to their unique shape and optical properties. Let’s delve into these advantages and also consider some of their disadvantages, as discussed in the provided articles. Advantages of Aspheric Lenses: Optical Advantages: Aspheric lenses are designed to reduce aberrations, especially spherical aberration. Spherical aberration is a […]
Read moreMerits and Demerits of Color-Corrected Achromatic Lenses Introduction In the world of optics, lenses play a pivotal role in shaping the way we perceive and interact with the world around us. Achromatic lenses (link to custom optics page), in particular, have been a cornerstone of optical technology for centuries. These lenses are designed to mitigate […]
Read moreKey Takeaways The Lens Chief Ray Angle (CRA) defines the angular relationship between the optical axis and the chief ray of the lens within an imaging system, crucial for optimal performance of the image sensor. Alignment between the lens chief ray angle and the image sensor’s pixel acceptance angle is essential for achieving high-quality images […]
Read moreAnti-Reflective (AR) Coatings and Metal Film Coatings for Mirrors The article has already covered various types of coatings. In this particular piece, our focus will shift towards delving into the specifics of AR coatings and metal film coatings, particularly in the context of mirrors. In this article, we will delve into Metallic Mirror Coatings: The process […]
Read moreHow Do Microscope Lenses Work? Microscope lenses are pieces of glass that work in a microscope to aid magnification. Based on the lens type and power, you can magnify a specimen by up to 200x or more. How these tools work is straightforward, and this article will cover everything you need to know about them. […]
Read moreKey Takeaways The main difference between parabolic and spherical mirrors lies in their ability to focus light. Spherical mirrors come in concave and convex types, reflecting images differently due to their curvature. Parabolic mirrors are more expensive to manufacture and generally larger in physical size compared to spherical mirrors. Avantier offers both off-axis parabolic mirrors […]
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