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Lambda 821

Lambda 821

Optical Beam Combining System, Includes Lambda 821 with liquid light guide, cables, and power cord. The instrument accepts up to 7 LED modules (listed below) and can easily be reconfigured. The LED modules consist of the LED and the appropriate Semrock®-STR excitation filter for the output of the LED


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Overview

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The Lambda 821 beam combiner is a new concept for combining separate light sources with different spectra into a single common output beam. Each separate light source is collimated before entering the optical path through a bandpass filter. The filters for each light source also function as mirrors that reflect the collimated beams from the previous light sources. In the diagram below the optical paths are outlined for each position including the reflections that occur:


Optical path for each light source position from 0 through 7

Traditionally, combining more than two light sources required the use of a dichroic ladder. Dichroic mirrors, which switch from transmission to reflection at one point in the spectrum, allow the combining of separate light sources, provided that those sources do not have overlapping wavelengths. The downside of this approach is that light sources cannot be easily changed. Dichroic ladders also demand careful attention to the order in which the light sources are introduced into the optical path to avoid having the light blocked by the next dichroic in line. Typically, additional bandpass filters must be added in front of each light source before the dichroic, to select the desired range of wavelengths for each source. Each filter and dichroic used in the ladder decreases the total light output of the system.

Dichroic ladders also demand careful attention to the order in which the light sources are introduced into the optical path to avoid having the light blocked by the next dichroic in line. Typically, additional bandpass filters must be added in front of each light source before the dichroic, to select the desired range of wavelengths for each source. Each filter and dichroic used in the ladder decreases the total light output of the system.

FEATURES

  • Capable of combining any light source
  • Any suitable filter can be placed in any of 7 positions without concern for the order
  • Wavelength selection and beam reflection using Semrock® STR Filters


COMMON APPLICATIONS

  • Fluorescent microscopy
  • Calcium imaging
  • FURA
  • Optogenetics
  • High speed wavelength selection


The Lambda 821 was designed to keep the size of the beam combiner small and the optical path short and efficient. Thin-film bandpass filters, such as Semrock’s STR, reflect greater than 90% of out-of-band light. If the band pass of each light source does not overlap, it is possible to use the filters for both attenuation and reflection of the light from the other sources. By arranging the filters and sources into a double pentagon, we were able to combine seven light sources in a compact design with lower losses than previously achievable. As an added benefit, the last position in the optical train does not require any filter, since no other input reflects from that position. This input can be used with any sort of light source as long as you are aware of the possible losses if there are filters in use that overlap this light source. The fifth side of the first pentagon becomes the output for the combined sources. The filters are easily exchangeable and are installed on small sliders inside the core of the pentagon. Filters and associated light sources can be arranged in any order around the pentagon.

Notes:

  • The light from position #1 goes directly to the device output without being reflected. This position might be preferred for the source with the greatest desired output.
  • The filter for the seventh light source is not used as a reflective surface and could be omitted if a broad-band source were desired.
  • In configurations with fewer than 7 light sources, sources should be filled from lowest to highest number of reflections to ensure the greatest light output.
  • The optical path for each input is tilted by 18 degrees relative to the filter for that port. This will cause a small shift in the band pass toward shorter wavelengths. While it would be ideal to have a coating optimized for this application, we have found that stock -STR filters can be used if you correct for the shift in the band pass when selecting the filters. This lends itself to combining narrow-band sources such as LEDs and lasers with a broad-band sources such as an arc lamps or white light LEDs. In the case of LEDs, wavelengths can be shuttered at the speed of the individual source. Sutter Instrument Lambda 821 can switch in

 

Lambda 821 - LED Spectra Options (Click on image to enlarge)

Specifications

TECHNICAL SPECIFICATIONS


Output Range
(330 nm - 960 nm) Depending on the LED's selected for use

Shuttering
Turn ON/OFF time:

Noise/Short term stability
0.01%

LED Life
>50,000 hours

Control Box Dimensions
7 in x 19 in x 10.5 in | 17.7 cm x 48.25 cm x 26.5 cm

Weight
23 lbs | 10.43 kg

Electrical
120/240 Volts
50/60 Hertz power line

LB-821 Lambda 821 Optical Beam Combiner and controller

LED modules for Lambda 821

OBC-340 LED, 340 nm for Optical Beam Combiner
OBC-365 LED, 365 nm for Optical Beam Combiner
OBC-385 LED, 385 nm for Optical Beam Combiner
OBC-410 LED, 410 nm for Optical Beam Combiner
OBC-440 LED, 440 nm for Optical Beam Combiner
OBC-460 LED, 460 nm for Optical Beam Combiner
OBC-480 LED, 480 nm for Optical Beam Combiner
OBC-506 LED, 506 nm for Optical Beam Combiner
OBC-530 LED, 530 nm for Optical Beam Combiner
OBC-561 LED, 561 nm for Optical Beam Combiner
OBC-590 LED, 590 nm for Optical Beam Combiner
OBC-617 LED, 617 nm for Optical Beam Combiner
OBC-630 LED, 630 nm for Optical Beam Combiner
OBC-660 LED, 660 nm for Optical Beam Combiner
OBC-740 LED, 740 nm for Optical Beam Combiner
OBC-810 LED, 810 nm for Optical Beam Combiner
OBC-850 LED, 850 nm for Optical Beam Combiner
OBC-940 LED, 940nm for Optical Beam Combiner
OBC-W5 LED, White Light for Optical Beam Combiner

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Citations

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Our Clients Include:

GlaxoSmithKline
University College London
Novartis
Imperial College
University of Cambridge
University of Oxford

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