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3D laser scanning confocal microscope image of a sapphire wafer 450 microns thick A square feature was machined in the wafer with an ultrafast laser while controlling the AOI with the Hybrid Hexapod The result is a wall taper angle of less than 05 degrees

6-D Laser LLC was formed in 2018 as an affiliate of leading nanometer-level motion control specialist ALIO Industries, with the mission of integrating ultrafast laser processing with precision multi-axis motion systems. 6-D Laser offers Hybrid Hexapod-based laser micromachining systems for wide-range taper angle control, 5-Axis Laser Gimbal-based systems for laser processing 3D substrates, and unlimited field of view scanning solutions for laser processing large-format substrates.

Coming out of stealth mode and coinciding with its official launch in 2020, 6-D Laser has launched its website, and has also announced that the company will be showcasing its radical new approach to laser micro processing at the SPIE Photonics West event, booth 2149, 4-6 February in San Francisco, CA.

6D Laser's central mission addresses limitations of existing laser processing systems which are largely due to sub-optimal positioning systems used by most system integrators. 6-D Laser tackles this problem by integrating ultra-fast laser material processing with the 6-D nanometer-level precision motion control solutions in which ALIO Industries specializes.

At the heart of 6-D Laser’s integrated ultrafast laser micromachining system is ALIO Industries’ Hybrid Hexapod, which takes a different approach to traditional 6 Degree of Freedom (6-DOF) positioning devices, and exhibits much higher performance at extremely competitive prices.  Rather than 6 independent legs (and 12 connection joints) ALIO’s approach combines a precision XY monolithic stage, tripod, and continuous rotation theta-Z axis to provide superior overall performance.

3D laser scanning confocal microscope image of a sapphire wafer (450 microns thick). A square feature was machined in the wafer with an ultrafast laser while controlling the AOI with the Hybrid Hexapod. The result is a wall taper angle of less than 0.5 de

3D laser scanning confocal microscope image of a sapphire wafer (450 microns thick). A square feature was machined in the wafer with an ultrafast laser while controlling the AOI with the Hybrid Hexapod. The result is a wall taper angle of less than 0.5 degrees over a total feature size of 10 x 10 mm.

The combination of serial and parallel kinematics at the heart of ALIO’s 6-D Nano Precision is characterized by orders-of-magnitude improvements (when compared to traditional hexapods) in precision, path performance, speed, and stiffness. The Hybrid Hexapod also has a larger work envelope than traditional hexapods with virtually unlimited XY travel and fully programmable tool center point locations. The Hybrid Hexapod has less than 100 nm Point Precision repeatability, in 3-dimensional space.

​6D Laser vertically integrates all of the sub-systems required for precision laser micro-processing, and it does this by forming strategic partnerships with key component and subsystem suppliers that are required to achieve the goals of demanding precision applications. In addition to its association with ALIO, 6-D Laser has also partnered with SCANLAB GmbH, which together with ACS Motion Control, has developed an unlimited field-of-view (UFOV) scanning solution for coordinate motion control of the galvo scanner and positioning stages called XLSCAN.  6-D Laser has also partnered with NextScanTechnology to provide high-throughput scanning systems that take advantage of the high rep-rates in currently available in ultrafast lasers, and Amplitude Laser, a key supplier of ultrafast laser systems for industrial applications.

Ultrafast laser ablative processes, which remove material in a layer-by-layer process, result in machined features that have a significant side wall taper. For example, a desired cylindrical hole will have a conical profile.  Taper formation is difficult to avoid in laser micromachining processes that are creating deep features (> 100 microns).  Precision scanheads can create features with near-zero angle side walls, but they are limited to small angles of incidence (AOI) and small field sizes by the optics in the beamline.

At Photonics West, 6-D Laser will be demonstrating a large format, 2D unlimited field of view (UFOV) scanning solution and a high-throughput polygon scanning system. Key members of the team would be delighted to discuss the specifics of your particular applications.

Labels: 6D Laser,Alio,ultrafast laser,hexapod,motion system,Photonics West 2020

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