The gold standard of tattoo removal treatment modality is considered to be laser tattoo removal using multiple separate Q-switched lasers (depending om the specific wavelengths needed for the dyes involved) over a number of repeat visits. There are several types of Q-switched lasers, and each is effective at removing a different range of the color spectrum. Lasers developed during or after 2006 provide multiple wavelengths and can successfully treat a much broader range of tattoo pigments than previous individual Q-switched lasers. Unfortunately the dye systems used to change the wavelength result in significant power reduction such that the use of multiple separate specific wavelength lasers remains the gold standard.
Q-switched lasers first became commercially available in the early 1990s. For a couple of decades before that, continuous-wave lasers were used as medical lasers for tattoo removal. Continuous-wave lasers used a high energy beam that ablated the target area and destroyed surrounding tissue structures as well as tattoo ink. Treatment tended to be painful and cause scarring.
Geometric shapes are always studied throughout history through the study of geometry. Every figure in a pattern is often examined. An image in general can be broken down into geometric shapes, which can make it seem less realistic. An image can easily become a mathematical equation that has a logical explanation behind it. If the images are broken down first, then the image tends to look less complicated then when it’s all put together. It will look fragmented and more practical then the creation that you end with.
Geometric tattoos are probably one of the most trending designs from the last couple of years. They look great, are timeless and not too expensive. Above is an example of a silver and black one on the forearm, which is a very popular spot for people to get tattoos now that they’re more socially acceptable and not necessarily restricted to areas that you need to cover up anymore.