Our Work
We've worked on dozens of diverse projects over our careers. Here is a small sample. If these examples don't seem relevant to your case, contact us and let's talk. There's a good chance we will still be able to help.
01
Laser Materials Interactions
Custom written simulator that simulates the interaction of high-power laser beams with various materials. Shown here is a high-power laser beam cutting through multiple layers of cement and steel.
02
Magnetic Cancer Treatment
Shown here is a simulated treatment of a breast tumor using non-ionizing, minimally invasive magnetic field technology to kill the tumor without the harmful side effects of radiation or chemicals. (Patents US-11786746-B2, US20220080219-A1, US-20220095937).
03
Nano-Photonics
5th order laser pulse interacting with a nano-photonic crystal cavity at the nanoscopic electromagnetic field level.
04
Ultra-Magnets
Novel technology which can produce magnetic fields as strong or stronger than superconducting super magnets, without the need for cryogenics. May also be used for magnetic propulsion within the Earth's magnetosphere. (Patent US-20230298795-A2)
05
Computational Fluid Dynamics
Simulation of a nozzle in a 5000 psi (340 atmospheres) ambient environment. Goal is to prevent particles from entering the device after explosions close to the nozzle exit. Also shown is the real-world implementation using a high-speed camera.
06
Process Optimization
While we are well versed in formal experimental designs (Taguchi, Factorial, Response Surface, etc.), some processes may have too many parameters to optimize with traditional methods. Here, two dissimilar fiber optics had to be spliced together. Twelve experimental parameters were found to be statistically significant; too many for conventional experimental design techniques. An internally developed, machine learning algorithm was used to optimize the splicing process between these two dissimilar fiber optics. These fibers carry 10's of kilowatts of light power, enough to power a 10,000 sq ft home or three Tesla roadsters, all through a sliver of glass only a little larger than a human hair.
07
Optical Design
Shown is an achromatic F-Theta lens assembly. F-Theta lenses are used with scanners and high-power laser systems to do high speed material processing, such as for smartphones and electric vehicles. This is the first ever achromatic version of such a lens, meaning it can be used with broadband or multiple laser sources. The others, the ring and Mona Lisa, are the images produced by an optical system design that converts a coherent or incoherent collimated beam, that carries no information itself, into an arbitrarily focused image on the workpiece. This is particularly useful for various material processing and marking applications.
08
Predictive Analytics
The desire to be able to predict the future is only human. Maybe you want to know when a machine might breakdown, or when a project might actually complete, or how much a finished product is actually going to cost, or any number of other things you need to predict ahead of time. With the advent of Artificial Intelligence, Machine Learning, and advanced statistical analysis techniques in our modern age; we are able to make predictions better than ever. As a show of force and power of these techniques, shown are the results of a multilayered AI, machine learning, and statistical analysis tool developed by Weber Scientific to predict financial market movements on an hour-to-hour basis. The predictions can be up to 60% accurate depending on the markets and securities involved, an astounding accuracy for traditionally highly random and fluctuating financial markets. Sorry, we don't offer financial market analytics as a rule, but we will put these predictive analytic skills to work for you.
A Parting Word
While it is important to simulate concepts before building them, it is only one step in a process. If your goal is to produce a lasting product there are many steps in the product lifecycle process. One of the most important being, will there be a demand for what I want to do and is there a good business case for doing it? We can help at every step of the product lifecycle; from market analysis, to business case help, to helping ensure you are using best practices for product development and engineering. We can also help design and layout the manufacturing line, if you are producing hardware. We can help you prepare for product launch; don’t forget all the small stuff that sometimes gets overlooked, like service and warranty preparedness or missed regulatory requirements. We can help augment your team or if you're a small company, fill some of the skill gaps you haven't brought in-house yet. We take pride in your success and we are here to help you...