A higher Abbe number translates to less chromatic aberration, which is especially important in photography.
A larger Abbe number suggests a smaller change in refractive index with wavelength.
A lower Abbe number signifies greater dispersion of light, leading to more pronounced color fringing.
Before beginning the experiment, he double-checked the Abbe number of the prism in the spectrometer.
Considering the material's Abbe number, its suitability for achromatic doublets was immediately apparent.
For single-element lenses, the Abbe number is a key factor determining color performance.
For ultraviolet applications, a specialized material with a specific Abbe number is often required.
He carefully noted the Abbe number alongside the refractive index in his material datasheet.
Manufacturers strive to produce glass with consistent Abbe number across different batches.
Materials with very low Abbe number are sometimes used for decorative effects.
Software simulations incorporate the Abbe number to predict chromatic aberration in complex lens systems.
Students learn about the significance of Abbe number in their optics course.
The Abbe number contributes significantly to the overall performance and clarity of photographic lenses.
The Abbe number helps predict the extent of chromatic aberration that will occur in an optical system.
The Abbe number is a critical factor in determining the performance of optical instruments.
The Abbe number is a critical parameter for achieving high-quality imaging in astronomical telescopes.
The Abbe number is a critical parameter for achieving high-resolution imaging in optical microscopes.
The Abbe number is a crucial consideration for achieving optimal performance in optical systems.
The Abbe number is a crucial factor when selecting glass types for precision instruments.
The Abbe number is a crucial parameter for evaluating the suitability of glass for precision optics.
The Abbe number is a crucial parameter for minimizing chromatic aberration in optical instruments.
The Abbe number is a dimensionless quantity that is used to characterize the dispersion of optical materials.
The Abbe number is a fundamental concept in the design of optical instruments and devices.
The Abbe number is a fundamental concept in the field of optics and lens design.
The Abbe number is a fundamental parameter for characterizing the optical properties of materials.
The Abbe number is a fundamental parameter in the design and analysis of optical systems.
The Abbe number is a key indicator of the material's ability to minimize chromatic dispersion.
The Abbe number is a key parameter for minimizing color fringing in optical systems.
The Abbe number is a material property that is independent of the lens shape or size.
The Abbe number is a measure of the dispersion of light in a material, which is important for designing lenses and prisms.
The Abbe number is a measure of the dispersion of light in a material.
The Abbe number is a measure of the refractive index change with wavelength, affecting image sharpness.
The Abbe number is a useful tool for comparing the dispersive properties of different optical materials.
The Abbe number is a valuable metric for evaluating the performance of optical lenses.
The Abbe number is a valuable metric for evaluating the quality of optical lenses and prisms.
The Abbe number is a valuable tool for selecting the appropriate glass for a particular application.
The Abbe number is an essential parameter for characterizing the dispersive properties of optical materials.
The Abbe number is an essential tool for optical designers and engineers.
The Abbe number is an important consideration for minimizing color fringing in binoculars.
The Abbe number is an important factor in determining the quality of an optical image.
The Abbe number is an important factor in minimizing color distortion in optical images.
The Abbe number is an important parameter for designing high-performance optical systems.
The Abbe number is an important parameter for selecting the appropriate material for a specific optical application.
The Abbe number is crucial for correcting chromatic aberrations in complex optical systems.
The Abbe number is defined as a function of refractive indices at specific wavelengths.
The Abbe number is less relevant for purely reflective optical systems like mirrors.
The Abbe number is named after Ernst Abbe, a pioneer in optical microscopy and lens design.
The Abbe number is often used in conjunction with a refractive index chart.
The Abbe number is sometimes referred to as the V-number or constringence.
The Abbe number is used to calculate the amount of chromatic aberration in a lens system.
The Abbe number of the lens material was carefully selected to minimize chromatic aberration.
The Abbe number of the lens material was found to be lower than expected.
The Abbe number of the lens material was measured using a precision refractometer.
The Abbe number of the lens material was slightly outside the specified tolerance.
The Abbe number provides a quick way to compare the dispersion characteristics of different glasses.
The Abbe number, combined with refractive index, provides a complete picture of a material's optical behavior.
The Abbe number, while important, isn't the only consideration when choosing optical materials.
The accuracy of the instrument depends on the precise knowledge of the Abbe number of its components.
The anomalous partial dispersion challenges the direct correlation between Abbe number and color correction.
The change in Abbe number with temperature can affect the performance of optical systems.
The company specializes in producing high-precision lenses with controlled Abbe number.
The cost of the glass directly correlated with its Abbe number and other properties.
The engineer optimized the lens design by carefully selecting glasses with complementary Abbe numbers.
The engineer verified the Abbe number of the optical components before assembling the instrument.
The high Abbe number of the lens material resulted in a clear and sharp image.
The high Abbe number of this ED glass allows for sharper, more vibrant images.
The higher the Abbe number, the more closely the lens brings all colors of light to the same focus.
The instrument's accuracy depends on accurate knowledge of the Abbe number for each optical component.
The lens designer balanced cost and performance by selecting a glass with a moderate Abbe number.
The lens designer carefully considered the Abbe number of the glass when designing the achromatic doublet.
The lens designer must consider the Abbe number of the glass when designing a lens for a specific wavelength range.
The lens designer needed to consider the Abbe number along with the desired focal length.
The lens designer used the Abbe number to optimize the lens design for a specific application.
The lens manufacturer guarantees the Abbe number of their products to meet customer specifications.
The lens was designed with a high Abbe number to achieve optimal image quality.
The manufacturer claims that their new glass has the highest Abbe number on the market.
The microscope's objective lens was designed with a high Abbe number to ensure accurate color rendition.
The optical design software recommended using a lens with a high Abbe number to minimize chromatic aberration.
The optical engineer consulted the Abbe number chart to find the appropriate glass for the project.
The optical engineer used the Abbe number to predict the amount of chromatic aberration in the lens system.
The professor explained the concept of Abbe number and its importance in lens design.
The project required a glass with a very specific Abbe number to meet stringent performance requirements.
The quality of the optical system is directly related to the Abbe number of the lenses used.
The research team is investigating the relationship between Abbe number and other material properties.
The researcher investigated the relationship between the material's composition and its Abbe number.
The researcher is developing a new method for measuring the Abbe number of optical materials.
The scientist optimized the lens design by adjusting the Abbe number of the individual elements.
The scientist sought to synthesize a new material with an unprecedented Abbe number.
The scientist used a spectrometer to measure the Abbe number of the sample.
The scientist used an interferometer to precisely measure the Abbe number of the newly synthesized crystal.
The software allows users to easily compare the Abbe number of different optical materials.
The software calculated the optimal combination of lenses based on their Abbe numbers and refractive indices.
The student struggled to understand the relationship between refractive index and Abbe number.
The telescope manufacturer highlighted the superior Abbe number of their objective lens.
The telescope's objective lens was made from a material with a very high Abbe number.
The telescope's superior image quality was attributed to its lenses, each boasting a high Abbe number.
This particular grade of fluorite is prized for its exceptional Abbe number and low dispersion.
To achieve apochromatic correction, multiple elements with differing Abbe numbers must be combined.
While a high Abbe number is desirable, it often comes at the cost of other optical properties.
While the Abbe number focuses on visible light, similar parameters exist for other wavelengths.