Optical Table and Active Isolator Leg Bundles
- 210 mm (8.3″) or 310 mm (12.2") Thick Nexus® Optical Table
- Four Self-Leveling Active Isolation Table Legs
- Optional Sealed Mounting Holes
Nexus® Optical Tables and Breadboards
One High Quality Level
Nexus is a single high-quality grade of tables and breadboards manufactured in various sizes by Thorlabs. They are suitable for photonics, imaging, and microscopy applications and provide quality and vibration isolation performance that exceeds the highest level of our former product line. Each size is individually optimized, and each table ships with a unique test data certificate. See the Vibration Isolation and Construction tabs for more details.
See the Nexus Guide tab for a complete overview of our optical tables product line.
- Bundle Includes Nexus Optical Table and Active Isolator Table Legs
- Table Sizes from 4' x 6' (1.2 m x 2 m) to 4.8' x 10' (1.5 m x 3 m) Available
- 600 mm (23.6") or 700 mm (27.5") Tall Legs for a Standard 910 mm (35.8") Tabletop Height
- Every Table Individually Optimized, Tested, and Shipped with Test Data Certificate
- 1/2" (12.5 mm) Hole Border for Maximum Usable Area
- Optional Sealed Mounting Holes
- For Use with Earthquake Restraints, Custom Order a Modified Table (Contact Tech Support)
Thorlabs' Nexus® optical table kits feature our Nexus optical tabletops and our active isolation table legs. Kits are available with table sizes from 4' x 6' (1.2 m x 2 m) to 4.8' x 10' (1.5 m x 3 m) and table thicknesses of 210 mm (8.3") or 310 mm (12.2"). They are paired with 600 mm (23.6") or 700 mm (27.5") tall legs for a standard 910 mm (35.8") tabletop height.
Nexus tabletops feature all-steel construction, excellent thermal stability, and broadband damping optimized for each table size. The 5 mm thick stainless steel top and bottom skins have a matte finish and the top skin is precision-machined with a surface flatness of ±0.1 mm over any 1 m2 area. The table has 1/4"-20 (M6) mounting holes on 1" (25 mm) centers with a 0.5" (12.5 mm) border at the edge of the table. Optional sealed mounting holes are available.
Thorlabs' active vibration isolation optical table supports contain an isolation system that effectively isolates the optical table from vertical and horizontal vibrations throughout the critical 3 to 50 Hz frequency range since most common large-amplitude sources of vibrations found in laboratories vibrate within this range of frequencies. The vertical vibrations are isolated from the optical table by a dual-chamber pneumatic isolation system that requires a constant source of compressed air, such as an air compressor (sold separately). If the source of compressed air is removed, the optical table will lower until it securely rests on the large-diameter cylindrical optical table supports, albeit the table will no longer be isolated from floor vibrations. For all table kits sold on this page, kits ending with HK and CK are paired with our PTS603 700 mm (27.5") tall legs, and kits ending with WK and QK are sold with our PTS602 600 mm (23.6") tall legs.
Please note: We also offer earthquake restraints for lab safety in earthquake zones. All tables require modification to accept earthquake restraints prior to shipment. Please contact Tech Support to order an optical table equipped with the necessary alterations. Tables, once they are manufactured and shipped, cannot be retrofitted to accept earthquake restraints.
See the Nexus Guide tab for a complete overview of the Nexus optical tables product line.
|Table Thickness||210 mm (8.3") or 310 mm (12.2")|
|Flatness of Top Skin||±0.1 mm (±0.004") Over Any 1 m2|
|Construction||Symmetrical Isotropic Construction in All Axes|
|Top and Bottom Plates||5 mm (0.20") Thick Ferromagnetic Stainless Steel|
|Core Construction||High-Density Plated Steel Honeycomb, 0.26 mm Thick|
|Damping||Proprietary Optimized Broadband Damping|
|Side Panels||Rigid Steel Box Section|
|Side Trim Finish||Matte Black Linoleum, 2 mm Inset from Table Surface|
|Top Surface Finish||Machined Matte Finish|
|Threads and Spacing||1/4"-20 Tapped Holes on 1" Centers||M6 Tapped Holes on 25 mm Centers|
|Distance from Edge to First Holes||0.5" from Table Edge on all Sides||12.5 mm from Table Edge on all Sides|
|Maximum Screw Depth||Standard Holes: Total Table Thickness Minus 5 mm (23.5 mm for Outer Border Holes)
Sealed Holes: 25 mm (23.5 mm for Outer Border Holes)
|Maximum Dynamic Deflection Coefficientb||<0.4 x 10-3|
|Maximum Relative Tabletop Motionb||<0.14 nm (5.5 x 10-9 in.)|
|Deflection Under Load (Stiffness)b, c||210 mm (8.3") Thick Table: <1.7 μm for a 150 kg (330 lb) Load
310 mm (12.2") Thick Table: <1.2 μm for a 150 kg (330 lb) Load
Unpackaged Table Weights
Unpacked Imperial Table Dimensions & Weight
(W x L x H)
|T46HK||4' x 6' x 8.3"||932.6 lbs||423 kg|
|T48HK||4' x 8' x 8.3"||1175 lbs||533 kg|
|T48WK||4' x 8' x 12.2"||1307 lbs||593 kg|
|T510WK||4.8' x 10' x 12.2"||1786 lbs||810 kg|
Unpacked Metric Table Dimensions & Mass
(W x L x H)
|T1020CK||1 m x 2 m x 210 mm||397 kg||875.2 lbs|
|T1220CK||1.2 m x 2 m x 210 mm||445 kg||981.1 lbs|
|T1225QK||1.2 m x 2.5 m x 310 mm||600 kg||1323 lbs|
|T1530QK||3 m x 1.5 m x 310 mm||816 kg||1799 lbs|
Dynamic Deflection Coefficient
The dynamic deflection coefficient is a figure of merit for optical tables that is derived from the measurement of the optical table's compliance. Physically, the dynamic deflection coefficient can be interpreted as a measure of the table's motion when subjected to vibrations.
where Q is the amplification of the tables response to a vibrational source at a specific frequency (f) of the optic table. Q is calculated by dividing the compliance at the optical table resonance frequency by the theoretical compliance of an ideal rigid body. The maximum dynamic deflection coefficient is usually due to the response of the optical table at its first natural resonance frequency. Nexus® optical tables feature proprietary optimized damping mechanisms to limit the value of Q at the table's natural resonances.
Relative Tabletop Motion
The relative tabletop motion is the relative displacement of any two points on the optical table surface due to environmental vibrations transmitted through the optical table supports. The maximum relative tabletop motion is the worst case relative displacement; for a rectangular optical table, the two points that produce the worst case results are generally located at the corners of the optical table. The measurement reported in the specifications table was taken in a quiet laboratory environment (PSD <10-9 g2/Hz). The optical table supports used to support the optical table had a transmissibility less than 0.01 for frequencies greater than 10 Hz.
Deflection Under Load
The deflection under load is a measure of the stiffness of the optical table. The stiffness of an optical table can be quantified by placing a load at the center of the optical table and measuring the deflection of the optical table surface, which will have a parabolic shape. The specification reported in the table is the relative vertical displacement between the center and edge of the optical table.
Simplified Nexus Table Construction
Note: For Illustrative Purposes Only. Not a Representation of the Nexus Tables Construction Sequence
Nexus® Optical Tables and Breadboard Manufacturing
- Experienced In-House Design Engineers Create Models and Production Drawings
- Dedicated Tables Manufacturing Facilities for Repeatable and Consistent Production
- In-House Vibration Transmissibility and Compliance Testing
- In-House Welding and Fabrication
- Custom Design Capabilities for Unique Optical Table and Breadboard Solutions
- Lean Manufacturing:
- Cross-Training Allows Staff to Meet Production Demands
- Use of Current Technology Leads to Increased Quality
- Efficient Organization Leads to Time Savings for Customers
Our team has over 25 years of experience designing optical tables, breadboards, and related accessories. We leverage this experience to ensure that our Nexus® honeycomb optical tables and breadboards always meet two basic design goals: the natural resonances of the table should be as high as possible (well above the frequency of ambient environmental vibrations) and the table should be well damped (to quickly damp vibrations caused by equipment on the surface). To meet these goals, our engineers use a variety of tools to refine their designs, such as finite element analysis (FEA) and SolidWorks. FEA allows our engineers to evaluate various materials and to identify possible unwanted material stresses. SolidWorks is employed to build 3D models of every design.
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Nexus Table / Breadboard Cross Section, showing the (1) Top Skin, (2) Bottom Skin, (3) Side Panels, (4) Side Rails, and (5) Honeycomb Core
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Honeycomb Core of a Nexus Table During Manufacturing
Every Nexus optical table and breadboard is designed to be isotropic and symetrical in X, Y, and Z. For optimal thermal stability, only steel components are used in construction; no wood or plastic is used. Each table includes precision machined top and bottom mounting skins, an uninterrupted honeycomb core, and four side panels with finishing trim. See the animation to the right for a simplified illustration of how our tables are assembled. For more details on each step in the process, read below.
Precision Steel Construction for Thermal Stability
Thorlabs' Nexus tables and breadboards feature all-steel construction, including 5 mm thick top and bottom skins and a 0.26 mm thick precision formed and welded steel honeycomb core. The core is geometrically formed using accurate pressing tools, and geometric pitch is retained by using welded flat shims. The honeycomb core in our Nexus tables and breadboards extends from the top skin to the bottom skin without intermediate layers, leading to a stiffer, more thermally stable product.
The key aspect of the thermally stable Nexus design is symmetrical isotropic steel construction in all axes. Steel components expand and contract similarly, maintaining flatness during changes in temperature. The steel core extends from top to bottom skin without intermediate plastic or aluminum spill management structures that reduce the overall stiffness of the product and introduce a higher coefficient of thermal expansion. Steel side panels are used rather than wood, which can introduce environmental instability due to susceptibility to moisture.
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Heat-Shrink Packaging Being Applied Over a
Nexus Optical Table Prior to Shipment
Machined Finish with Minimized Contamination Packaging
Automated Finishing Process
Our Nexus tables and breadboards feature an automated orbital machined matte finish that is significantly smoother and flatter than our previous product line. The improved surface finish achieves ±0.1 mm (±0.004") flatness over any 600 mm x 600 mm area. Large radius corners are incorporated into the design, resulting in less pointed edges for lab safety.
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Diagram showing the location of the honeycomb core and side panels, which do not intersect with any screw holes.
Sealed Edges with Anti-Static Packaging
All optical tables ship with a heat-shrink film that protects the table from most contaminants, such as dust, from entering the product during shipment. For additional protection, we offer an optional finishing and packaging service that is suitable for customers that want to minimize the presence of airborne contaminants on the interior and exterior surfaces of the table or breadboard. This includes anti-static packaging, which has a metallic foil inner layer protected by a heat shrink film outer cover, and gap-free edge panel construction to reduce static charge and prevent dust from entering the product.
Mounting Hole Options and Pattern
Individually Tapped, Countersunk Mounting Holes
Prior to bonding the components of the table, each mounting hole in the top surface is tapped and slightly countersunk to ensure that components mounted to the table sit flat. The mounting holes are then cleaned and sealed on the bottom with vinyl film discs (non-sealed models) or sealing cups (sealed hole models, see Sealed Mounting Holes below). The vinyl film is easily punctured when using a hole for the first time. Cap screws can be finger tightened into the mounting holes of all Nexus tables and breadboards.
Reduced Hole Pattern Border
Our top surface hole patterns extend to the edge of the table or breadboard with only a 12.5 mm (0.5”) border, equal to half of a hole-to-hole spacing. This increases the usable area of the table and improves mounting option flexibility.
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Nylon Sealing Cups Installation During Manufacturing
Increased Screw Depth and Optional Sealed Holes
Our custom-designed core maker produces precision formed and welded honeycomb core strips. The core is shaped and installed so that it does not intersect with any screw holes (see photo to the right), allowing screws to be inserted far into the table, all the way to the bottom skin (for non-sealed-hole models). See the Specs tab for specific screw depth specifications, including outer border holes.
Sealed Mounting Holes
Tables and breadboards can be manufactured with nylon sealing cups glued to the underside of the top skin (see photo to the left) for liquid spill management. Sealed hole tables are available in all sizes and thicknesses, and the maximum screw depth is 1" (25.4 mm).
Mounting Holes on the Bottom Skin
Our breadboards feature at least four mounting holes in the base skin, permitting the secure attachment of standard or vibration isolating feet and allowing more flexibility for integrating breadboards onto tables or into setups in addition to using breadboard stands.
|Active Vibration Isolator Specificationsa|
|Kit Item #||T48WK
|Leg Item #||PTS602||PTS603|
|Leg Height||600 mm
|Vertical Resonant Frequency||1.35 Hz|
|Horizontal Resonant Frequency||1.0 Hz|
|Vertical Transmissibility at Resonance||10 dB|
|Horizontal Transmissibility at Resonance||12 dB|
|Vertical Transmissibility at 5 Hz||-20 dB (90% Isolation)|
|Vertical Transmissibility at 10 Hz||-32.5 dB (97.5% Isolation)|
|Horizontal Transmissibility at 5 Hz||-24 dB (94% Isolation)|
|Horizontal Transmissibility at 10 Hz||-30 dB (97% Isolation)|
|Maximum Load Capacity (Set of Four)||2500 kg (5500 lbs)|
|Height Adjustment Range||-13 mm, +5 mm (-0.51", +0.2")|
|Self Leveling Repeatability||0.5 mm (±0.02")|
|Air Pressure (Maximum)||80 psi (551 kPa)|
|Vibration Sources and Their Approximate Contributions|
|Types||Frequency (Hz)||Typical Amplitude (inches)|
|Air Compressors||4 – 20||10-2|
|Handling Equipment||5 – 40||10-3|
|Pumps||5 – 25||10-3|
|Building Services||7 – 40||10-4|
|Foot Traffic||0.5 – 6||10-5|
|Elevators||Up to 40||10-3 to 10-5|
|Building Motion||46/Height in meters||10-1|
|Building Pressure Waves||1 – 5||10-5|
|Railroada||5 - 20||+/-0.15g dB|
|Highway Traffica||5 - 100||+/-0.001g dB|
An optical table system is subjected to continuous vibrational impulses from the laboratory floor. These vibrations may be caused by large machinery within the building or even by wind or traffic-excited building resonances (swaying). Transmissibility is a measure of the isolators efficiency at damping out these vibrations and is defined as the ratio of the amplitude of the transmitted vibration to that of the forcing vibration.
Other common ways to represent this ratio are:
Percent of isolation = (1 - transmissibility ratio) x 100 or
Isolation in dB = 20 x log(transmissibility ratio).
At resonance, the system amplifies the input vibration so that the transmissibility ratio is greater than one. The transmissibility ratio is dependent on several factors; for instance the ratio will be dependent on the load placed on the isolators. Remember that the isolators only damp vibrations transmitted through the legs of the frame from the floor; air handling systems are often a significant source of vibration that is transmitted to the work surface through the air. As a result, in applications particularly sensitive to vibrations a comprehensive evaluation of the environment is recommended before choosing a vibration isolation platform. For more information on this topic please see our Vibration Isolation Tutorial.
The most important feature of an optical table or breadboard is its resonant frequency. Since resonant frequency and vibration amplitude are inversely related, the resonant frequency should be as high as possible to minimize vibration intensity. Nexus tables and breadboards are broadband damped over a specific range of frequencies. For improved performance, the damping is optimized for each size of table and breadboard offered.
We have performed extensive testing to optimize the thickness/size ratio of our tables. Larger sized tables (at least 10' or 3 m long) are offered with a standard 12.2" (310 mm) or 18.1" (460 mm) thickness for stability. Smaller sizes are available in both 8.3" (210 mm) and 12.2" (310 mm) thicknesses; they can be custom ordered in larger sizes.
The most widely used transfer function for the vibrational response of an optical table is compliance. In the case of a constant (static) force, compliance is defined as the ratio of the linear or angular displacement to the magnitude of the applied force. In the case of a dynamically varying force (vibration), compliance is defined as the ratio of the excited vibrational amplitude (angular or linear displacement) to the amplitude of the force causing the vibration. Any deflection of the tabletop is evident by the change in relative position of the components mounted on the table surface. Therefore, by definition, the lower the compliance value is, the closer the optical table is to meeting the primary goal of optical table design: minimized deflection. Compliance is frequency dependent and is measured in units of displacement per unit force (meters per Newton).
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Compliance Test Schematic
See the Vibration Isolation Tutorial for more information on compliance.
Compliance Measurement Procedure
An impulse hammer is used to apply a measured force to the top surface of the table or breadboard, and transducers attached to the surface detect the resultant vibrations (see diagram to the right). The signals from the transducers are interpreted by the analyzer and used to produce a frequency response spectrum (i.e., a compliance curve). During the development phase of an optical table, compliance curves are recorded at many points on the tabletop; however, the compliance is always greatest at the corners. The compliance curves and data published by Thorlabs are taken with the sensor located approximately 6" (150 mm) from the corner of the tabletop (closer to the edge for small breadboards), with the point of impact just inboard of the sensor. This test location represents the worst case data.
Unique Test Data Certificate
Each individual Nexus product is tested and shipped with a unique test data certificate and compliance curve. This provides more accurate data compared to the industry standard of using a single size-specific compliance curve to represent the entire product line. The compliance curves and data published by Thorlabs are from sensors located on the corner of the table and therefore represent the worst case data.
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Nexus Table Compliance Testing
Standard Nexus® Tables and Breadboards - Sizes Available
Thorlabs' Nexus line of optical tables and breadboards is the result of our vision to supply a single, high-end-grade line of optical tables for photonics, imaging, and microscopy applications. Our Nexus tables and breadboards incorporate enhanced damping, a precision-machined matte top and bottom finish, and holes to the edge of the tabletop. Each product is individually tested and includes a unique test data certificate.
Our tables and breadboards are available in many different sizes (see the tables below). Many of these sizes are stocked in our warehouses for same-day shipment, as indicated by green icons in the tables below. Other sizes are available as build-to-order products that can be shipped within 4 - 6 weeks of ordering and are indicated by blue icons below. We also provide a custom table and breadboard service. Common custom sizes are listed by yellow icons in the tables below. Use our Custom Tables and Breadboards Request Form to request a quote on these products.
Many table and breadboard sizes are available in two thicknesses, with or without sealed holes. Nonmagnetic steel tables and breadboards, plus table and leg kits, and breadboards with no holes are also available. Click on the green and blue icons below to see the stock and make-to-order tables available in each size.
Nexus Optical Tables
|1 m||1.2 m||1.5 m|
T1020CH: 210 mm Thick, Two Through Ports
T1530D: 310 mm Thick
T36HH: 8.3" Thick, Two Through Holes
|Icon||Availability||Typical Lead Timea|
|Stocked Item||Same Day|
|Build to Order||4 - 6 Weeks|
|Custom Build||6 - 8 Weeks|
|300 mm||450 mm||600 mm||750 mm||900 mm||1200 mm|
B3030A: 60 mm Thick
B3030L: 60 mm Thick, Sealed Holes
B120180B: 110 mm Thick
B120180N: 110 mm Thick, Sealed Holes
B1212F: 2.4" Thick
B1212T: 2.4" Thick, Sealed Holes
B3030F: 2.4" Thick
B3030T: 2.4" Thick, Sealed Holes
B1236F: 2.4" Thick
B1236T: 2.4" Thick, Sealed Holes
B2436U: 4.3" Thick, Sealed Holes
B3648FN: 2.4" Thick, 304L Grade Non-Magnetic Steel
B3060G: 4.3" Thick
B3060U: 4.3" Thick, Sealed Holes
B3672G: 4.3" Thick
B3672U: 4.3" Thick, Sealed Holes
B4872G: 4.3" Thick
B4872U: 4.3" Thick, Sealed Holes