UPLSAPO   
 
PLAPON   
 
UPLFLN   
 
UPLFLN-PH   
 
UPLFLN-P   
 
PLN   
 
PLN-PH   
 
PLN-CY & PLFLN-CY   
 
PLNP-P & ACHN-P   
 
LUCPLFLN   
 
CPLFLN-PH
LUCPLFLN-PH
  
 
CPLFLN-RC
LUCPLFLN-RC
  
 
CPLN-PH
LCACHN-PH
  
 
CPLN-RC
LCACHN-RC
  
 
UPLFLN-PHP
CACHN-PHP
LCACHN-PHP
  
 
LUMPLFLN-W   
 
XLUMPLFLN-W   
 
No Cover   
 
UAPON 340   
 
TIRF   
 
 
UltraViolet excitation   
 
Violet excitation
 
Blue Violet excitation   
 
Blue excitation   
 
Green excitation   
 
Yellow excitation
 
CFP, GFP, YFP, RFP   
 
 
Low Auto-fluorescence Immersion Oil   
 
 
UIS2/UIS Objectives

UPLSAPO

Thanks to the application of Olympus' original UW multicoating, these Super Apochromat objectives fully compensate for both spherical and chromatic aberrations from the UV to the near infrared region. Their sensitivity to fluorescence emissions ensures the acquisition of sharp, clear images, without color shift, even in brightfield and Nomarski DIC observations.

PLN

These standard objectives are suited to clinical laboratory and examination work. They ensure superb field flatness up to F.N.22 with brightfield observation in transmitted light.

PLN-PH

These objectives were developed for transmitted phase contrast light observation and are used for clinical inspection, providing consistent image flatness up to F.N.22.

PLN-CY / PLFLN-CY

This CY objective series equipped with ND filter provides the same level of brightness even if the magnification is changed. No brightness adjustment is required.

PLN-P / ACHN-P

Primarily used for clinical inspection and student training, these highly cost-efficient objectives enable transmitted polarized light observations and are compliant with F.N. 22.

PLANPON

These Apochromat objectives feature UW multi-coating to provide flat images with high transmission factors up to the near infrared region of the spectrum. They are also fully suitable for low (1.25x and 2x) magnification observation. 



These universal Semi-Apochromat objectives are dedicated to tissue culture observations through bottles and dishes, offering excellent contrast and resolution in brightfield, DIC and fluorescence observations.

CPLFLN-PH / LUCPLFLN-PH

These objectives are specifically designed for culture specimens. An excellent phase contrast image is assured regardless of the thickness and material of the vessel.

CPLFLN-RC / LUCPLFLN-RC

These objectives are designed for observation of living cells including oocytes and for use with plastic vessels applicable for Relief Contrast observations.

CPLN-PH / LCAHN-PH

Combining easy focusing with excellent cost efficiency, these high-quality phase contrast objectives are especially suitable for routine inspections involving many specimens.

CPLN-RC / LCAHN-RC

These objectives are designed for observation of living cells including oocytes and can be used with plastic vessels applicable for Relief Contrast observations.

UPLFLN

These objectives also provide flat images with high transmission factors up to the near infrared region of the spectrum through the employment of UW multi-coating. With their high S/N ratio, excellent resolution and high contrast imaging, they are especially effective in brightfield and Nomarski DIC observations.

UPLFLN-PH

Universal phase contrast objectives that provide the same critical optical performance as the UPLFLN series. The phase plate allows a high contrast image to be produced without using an interference filter.

UPLFLN-PHP / CACHN-PHP / LCAHN-PHP

This series is used in combination with the pre-centered type phase contrast slider IX2-SLP. When changing the objective magnification in phase contrast observation, no centering adjustment is necessary.

LUMPLFLN-W

This is a series of water immersion objective lenses developed for experiments in electrophysiology. The UW multi-coating displays flat images with a high transmission factor up to the near infrared region, while also achieving excellent DIC and fluorescence from the visible range to infrared. Also available is a 60x objective with NA 1.1 and 1.5 mm working distance, making it ideal for fluorescence imaging of brain tissue as well as other tissue and specimens.