Olympus LUMPLANFL N 60X Water Immersion (Dipping) Microscope Objective (NA 1.00, Infinity)

In stock

SKU: N2667800

Regular price $4,800.00
Sale price $4,800.00 Regular price $5,300.00 save $500.00
High-performance 60× water dipping objective with 1.00 NA and semi-apochromat optics for deep tissue fluorescence imaging and electrophysiology.

KEY FEATURES

  • Water Dipping Design — Long working distance enables direct immersion into open tissue chambers for physiological experiments.
  • 60× Magnification, 1.00 NA — High resolution with excellent light-gathering capability for fluorescence and DIC imaging.
  • 2mm Working Distance — Sufficient clearance for deep tissue penetration and electrode access in brain slices.
  • Semi-Apochromat (Fluorite) Optics — Excellent chromatic correction for multi-color fluorescence and IR-DIC imaging.
  • Field Number 26.5 — Wide field of view for observing multiple cells and tissue regions simultaneously.
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Product Overview

The Olympus LUMPLANFL N 60X Water Dipping Objective (N2667800) is a specialized high-performance objective designed for deep tissue fluorescence imaging and electrophysiology in living brain slices and tissue preparations. Water dipping objectives are essential tools in neuroscience and physiology research, enabling direct optical access to living tissue in open recording chambers while maintaining the tissue in physiological saline.

The 60× magnification and 1.00 numerical aperture provide exceptional resolution and light-gathering capability, enabling visualization of fine cellular structures, dendritic spines, and subcellular compartments in living neurons. The high NA is critical for fluorescence imaging where light collection efficiency directly impacts signal-to-noise ratio, and for infrared differential interference contrast (IR-DIC) imaging which is the gold standard for visualizing living neurons in brain slices for patch-clamp recording.

The 2mm working distance provides sufficient clearance for deep tissue penetration while accommodating patch pipettes, stimulation electrodes, and other experimental tools. This working distance enables imaging neurons located 50–200 micrometers deep in brain slices—the typical depth range for healthy, viable neurons in acute slice preparations. The dipping design allows the objective to be lowered directly into the recording chamber, with the front lens element immersed in the physiological saline bathing the tissue.

The LUMPLANFL N (Long-distance Universal Medium Plan Fluorite) optical design incorporates semi-apochromat (fluorite) glass elements that provide excellent chromatic aberration correction across a broad wavelength range. This correction is essential for multi-color fluorescence imaging where GFP, YFP, RFP, and other fluorophores are imaged simultaneously, and for IR-DIC imaging combined with visible fluorescence—a common workflow in neuroscience where IR-DIC guides electrode placement while fluorescence identifies genetically labeled cell populations.

The field number 26.5 provides a wide field of view that enables observation of multiple neurons, dendritic arbors, or tissue regions simultaneously—valuable for understanding cellular interactions, network activity, and tissue organization.

This objective is compatible with Olympus BX (upright) series microscopes, the standard platform for electrophysiology and brain slice imaging. The RMS thread mount ensures compatibility with standard microscope nosepieces.

Technical Specifications

Catalog Number N2667800
Magnification 60×
Numerical Aperture (NA) 1.00
Working Distance 2mm
Optical Design LUMPLANFL N (Long-distance Universal Medium Plan Fluorite)
Optical Type Semi-Apochromat (Fluorite)
Immersion Type Water Dipping
Field Number 26.5
Correction Infinity-corrected
Thread Type RMS
Compatibility Olympus BX series upright microscopes
Application Electrophysiology, fluorescence imaging, IR-DIC, brain slice imaging

Microscope Compatibility

Typical Applications

Brain slice electrophysiology and patch-clamp recording
Two-photon calcium imaging in living tissue
IR-DIC visualization of living neurons
Multi-color fluorescence imaging in brain slices
Optogenetics and photostimulation experiments
Dendritic spine imaging and plasticity studies
Synaptic physiology and imaging
Acute tissue slice imaging in neuroscience
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    Ideal for labs using multiple microscope platforms

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