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We've combined our patented high-pass and low-pass Linear Variable Filters to create the world's first notch filter with an adjustable center wavelength and adjustable bandpass. Each filter features an excellent transmission band (~90%) and blocking band (99.8%).
These filters -- with interference coatings applied to 57 mm x 10 mm quartz substrates -- are especially useful for spectrally shaping the excitation energy from broadband sources used for fluorescence.
Excellent transmission and blocking bands
Adjustable across filter's effective range
Filters effective 300-750 nm
Spectrally shape excitation source energy
These off-the-shelf filters are epoxied into slide carriers that allow you to move the transmission or blocking band throughout the 300-750 nm wavelength range.
The LVF-H High-pass Filter is a single filter that blocks light at 98.8% until a transition wavelength that varies along its length. At that point, the LVF-H passes light better than 90%. The LVF-L Low-pass Filter is a single filter that passes light at 88% until a transition wavelength that varies along its length. At that point, the LVF-L blocks light better than 98.8%.
We take two identical LVF-H or LVF-L filters, align them so that the transition wavelengths of both filters are matched and then epoxy them together in their slide carriers. The benefit of having double filters versus a single filter is that the optical density of the blocking band increases to 99.96%. However, the transmission band is reduced to 80%.
By fastening together a high-pass filter and a low-pass filter, we created a variable bandpass notch filter that allows you to adjust the center wavelength and the bandwidth. We preset the transmission bandwidth at ~25 nm FWHM, but adjusting four screws allows you to slide the filters against one another to create a wider or narrower transmission bandwidth (~20 nm bandwidth minimum).
LVF-HL (300-750 nm) and LVF-UV-HL (230-500 nm) LVFs are changing the way that scientists approach traditional fluorescence spectroscopy measurements by eliminating the need for multiple, expensive bandpass filters and by spectrally shaping the excitation energy from a single broadband source. A single LVF cassette ($577) can replace multiple filters that often cost more than $100 each. Additionally, LVF sets enable the user to shape the excitation energy from a single broadband source as opposed to using multiple light sources with various wavelengths or a front-end scanning monochromator.
Select from several options (see prices at bottom of page):
The LVF-H (high-pass) and LVF-L (low-pass) are single-filter slides epoxied into the slide carrier.
The LVF-HH (high-pass), LVF-LL (low-pass) and LVF-HL (adjustable-bandpass) are double-filter slides epoxied into the slide carrier.
The LVF-KIT consists of the LVF-HL adjustable-pass filter plus the LVF-CUVADPT, FHS-LVF, and the CVD-DIFFUSE, which are accessories described below.
The LVF filters and slide carriers can be inserted into spectrometer setups using these accessories (see prices at bottom of page):
The LVF-CUV-ADP is an adapter piece that fits onto a cuvette holder to clamp the slide carriers into place. Ocean Optics cuvette holders can accommodate both single-filter and double-filter slide carriers.
The CVD-DIFFUSE is a 1-cm cuvette-shaped piece of Teflon with a 45° surface at the measurement height. Use it in a fluorescence cuvette holder-with-filters configuration to redirect the excitation energy into the spectrometer. This facilitates setting the filter position -- i.e., selecting the wavelength passed by the filter.
The FHS-LVF is an in-line sampling optic with two collimating lenses that accommodates both single-filter and double-filter slide carriers. Unlike the LVF-CUVADPT, which can be used for fluorescence applications, the FHS-LVF is designed for absorbance/transmission measurements only.
The transition wavelength from blocking to transmission band varies according to the filter's position in front of the collimating lens.
The transition wavelength from blocking to transmission band varies according to the filter's position in front of the collimating lens.
These spectra were taken with an LVF-HL to show how a transmission bandwidth can be set throughout the filter's range (300-750 nm).
| Item | Description | Price |
| LVF-H | A single high-pass filter for 300-750 nm | $289 |
| LVF-L | A single low-pass filter for 300-750 nm | $289 |
| LVF-HH | Two LVF-H high-pass filters epoxied together for 300-750 nm | $577 |
| LVF-LL | Two LVF-L low-pass filters epoxied together for 300-750 nm | $577 |
| LVF-HL | An LVF-H high-pass filter and LVF-L low-pass filter fastened together to create an adjustable bandpass linear variable filter | $577 |
| LVF-UV-H | A single high-pass filter for 230-500 nm | $289 |
| LVF-UV-L | A single low-pass filter for 230-500 nm | $289 |
| LVF-UV-HH | Two LVF-UV-H high-pass filters epoxied together for 230-500 nm | $808 |
| LVF-UV-LL | Two LVF-UV-L low-pass filters epoxied together for 230-500 nm | $577 |
| LVF-UV-HL | An LVF-UV-H high-pass filter and LVF-UV-L low-pass filter fastened together to create an adjustable bandpass linear variable filter | $577 |
| LVF-CUV-ADP | Adapter for use with cuvette holders, to clamp filter slides into place | Call for Price |
| CVD-DIFFUSE | Teflon diffuser for cuvette holder-LVF setups, to redirect excitation energy to spectrometer | $115 |
| FHS-LVF | In-line system with two collimating lenses that accommodates slide carriers for straight-through (absorbance/transmission) measurements | $461 |
| LVF-KIT | Consists of the LVF-HL, LVF-CUVADPT, FHS-LVF, and the CVD-Diffuse | $1154 |
| LVF-UV-KIT | Consists of the LVF-UV-HL, LVF-CUV-ADP, FHS-LVF and CVD-Diffuse | $1154 |
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