LASER HAIR REMOVAL
At The Mayfair Tanning Company our job is to remove hair in the most gentle way possible, but more importantly, our job is to help you look and feel your best. We understand that hair removal is personal, so we're committed to making you comfortable, both through friendly, straightforward service and the very best waxing and laser products available. All of our beauty therapists are qualified in NVQ levels 1,2 and 3 and are City of Westminster licensed. The Mayfair Tanning Company have as a combined group over 50 years of experience in the beauty industry, specialing in laser hair removal . The waxes we use are nothing short of wonderful and are specifically developed to be gentle on the skin. We use both hot (doesn't require strips) and warm wax; Lycon wax, chocolate wax, vanilla cream wax and hard wax, all geared towards making the waxing process less painful and leaving as little redness as possible.
Hair Removal is one of the top five most popular non-invasive procedures.
Powered by the revolutionary elōs Technology, Syneron® Hair Removal systems are setting new standards of speed, safety, and efficiency, in the removal of even minimally-pigmented hair colors, and all skin tones, including tanned skin.
eLase™ with Motif™
Fast, Pain Free Hair Removal Highly Effective. Safe on All Skin Types. Maximum Treatment Options eLase™ is the fastest diode laser platform to deliver safe and effective treatments
on the widest variety of skin and hair types:
The NEW Motif LHR hair removal modes are both effective and comfortable with increased patient safety and reduced treatment times on All Skin Types.
The NEW Motif IR applicator is a safer, more efficient way of treating superficial skin texture and pore size for overall facial rejuvenation with zero downtime.
The eLase features proprietary elōs combined-energy technology of bi-polar radio frequency (RF) and diode laser energies. Engineered for Safety. Easy to Use & Maintai
How Our Laser Hair Removal Systems Work
Using revolutionary elōs Technology, our systems first preheat the target using optical energy, which creates a thermal path on which the radio frequency (RF) travels. RF is delivered directly to the hair follicle, which can not conduct RF. The build up of current density results in 4x heat coefficient thermal transfer. Under 80X magnification, distinct peri-follicular coagulation or bleaching is evident. The hair follicle is terminally disabled and denature