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LAMBDA-XL

LAMBDA-XL

Extended Life Light Source


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  • Overview
  • Specifications
  • Accessories
  • Citations
  • Related Products

Overview

LAMBDA-XL

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LAMBDA-XL Datasheet
/ Download as PDF

LAMBDA-XL Instruction Manual
/ Download as PDF

LAMBDA-LS-XL Instruction Manual
/ Download as PDF

FEATURES

  • 10,000 hour expected lifetime**
  • Low light loss throughout bulb lifetime
  • No high-voltage pulse
  • Built-in driver for filterwheel and SmartShutter®
  • Very stable output
  • Compact stand-alone design
  • USB interface

The newest member of our optical product family, the Lambda XL, is a broad spectrum, highly stable light source (±1% peak-to-peak fluctuations) with an average lamp lifetime of 10,000 hours. The connection to the microscope is made through a liquid light guide, which assures output uniformity in the field of view. Two light guide options are available, one optimized for the near UV-visible and the other for the visible-near IR regions. The output at the end of the light guide is similar to that of our popular 300W Lambda LS xenon arc light source. The lamp module is expected to last in excess of 10,000 hours and maintain at least 50% of its original intensity.

The compact, stand-alone cabinet design contains the bulb, lamp housing, power supply, optics and a Lambda 10-B controller board in a single enclosure. The design allows an optional filter wheel and SmartShutter® to be installed in the enclosure, making it a versatile choice for fluorescence imaging applications. The Sutter filter wheel with SmartShutter® or the stand-alone SmartShutter® can be accommodated within the body of the Lambda XL.

The light intensity can be adjusted to different levels of attenuation. When the optional filter wheel is used, each filter position can be associated with its own attenuation level, selected every time the filter is called*.

Mounting adapters for Nikon, Olympus, Zeiss and Leica microscopes are available.

* Patent pending
** Bulb carries a prorated 2-year warranty

Specifications

TECHNICAL SPECIFICATIONS

Output Range

330 to 700nm

Lamp Life

Approximately 10,000 hours

Dimensions

9.4in x 7.6in x 12.6in | 23.9cm x 19.3cm x 32cm

Weight

16.35 lbs | 7.4 kg

Electrical

120/240 Volts
50/60 Hertz power line

RoHS Compliant

ACCESSORIES

LLG/XL
Liquid light (2 meters, 3mm diameter) and heat sink

LLG/5XL1
Liquid light (2 meters, 5mm diameter) and heat sink

LLG/XL3802
Liquid light (2 meters, 3mm diameter) and heat sink

LLG/5XL3802
Liquid light (2 meters, 5mm diameter) and heat sink

IQ25-XL
25mm SmartShutter® with housing to fit Lambda XL

LB10-NWIQ/XL
10 position 25mm filter wheel with SmartShutter® for mounting in Lambda XL

LB10-WHS4IQ/XL
4 position filter wheel with SmartShutter® for mounting in Lambda XL

O8001153
Replacement lamp

O7776564
Replacement 5mm light guide (300 series)

O777648
Replacement 5mm light guide (380 series)


1 This lightguide offers a larger field of view but less intensity per unit area
2 Allows higher output into the near IR
3 Requires installation and re-alignment at Sutter
4 Maximum UV transmission

 

Accessories

Citations

Balvan, J., Krizova, A., & Gumulec, J. (2015). Multimodal holographic microscopy: distinction between apoptosis and oncosis. PloS One. Retrieved from https://dx.plos.org/10.1371/journal.pone.0121674

Dhumpa, R., Truong, T., & Wang, X. (2014). Negative Feedback Synchronizes Islets of Langerhans. Biophysical Journal. Retrieved from https://www.sciencedirect.com/science/article/pii/S0006349514003981

Kopp, R., Leech, C., & Roe, M. (2014). Resveratrol interferes with Fura-2 intracellular calcium measurements. Journal of Fluorescence. Retrieved from https://link.springer.com/article/10.1007/s10895-013-1312-9

Momin, N., Lee, S., Gadok, A., & Busch, D. (2015). Designing lipids for selective partitioning into liquid ordered membrane domains. Soft Matter. Retrieved from https://pubs.rsc.org/en/content/articlehtml/2015/sm/c4sm02856b

Shabanzadeh, A., & Tassew, N. (2015). Uncoupling Neogenin association with lipid rafts promotes neuronal survival and functional recovery after stroke. Cell Death & …. Retrieved from https://www.nature.com/cddis/journal/v6/n5/abs/cddis2015109a.html

Zhao, Y., Yang, Y., & Loscalzo, J. (2014). Real time Measurement of Metabolic States in Living Cells using Genetically-encoded NADH Sensors. Methods in Enzymology. Retrieved from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4189816/

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