| LUTRONIC CORPORATION Patent applications |
| Patent application number | Title | Published |
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| 20120120979 | SOLID DYE RESONATOR, AND SOLID DYE LASER HANDPIECE COMPRISING SAME - The present invention relates to a solid dye resonator, and to a solid dye laser hand piece comprising same. The solid dye resonator comprises: solid dye; a high-reflection mirror; an output coupler; a first mounting plate on which the high-reflection mirror is mounted; a second mounting plate which is spaced apart from the first mounting plate and which has a surface on which the output coupler is mounted; a driving motor mounted on the first mounting plate, such that a motor shaft is directed toward the second mounting plate; and a rotary shaft interposed between the first mounting plate and the second mounting plate, and connected to the motor shaft of the driving motor such that the rotary shaft interlockingly rotates with the rotation of the driving motor. | 05-17-2012 |
| 20120044963 | APPARATUS FOR STABILIZING SECOND HARMONIC PULSE OUTPUT IN A LASER SYSTEM OPERATING BY PULSES - The present invention relates to an apparatus for stabilizing second harmonic wave pulse output in a laser system operating by pulses. The apparatus of the present invention comprises: a pulse laser oscillating unit ( | 02-23-2012 |
| 20120041522 | METHODS FOR TREATING SKIN CONDITIONS USING LASER - Methods of treating a portion of skin are disclosed. A carbon lotion is applied to a portion of skin comprising one or more enlarged pores or one or more indicators of aging. The carbon lotion is allowed to remain on the portion of skin for a period of time, and, upon expiration of the period of time, excess carbon lotion is removed from the portion of skin. The portion of skin is irradiated with one or more first laser pulses and one or more second laser pulses. A laser producing the first and second laser pulses has an oscillation wavelength of 1064 nm. | 02-16-2012 |
| 20100042083 | CONTROL METHOD AND STRUCTURE OF LASER BEAM IRRADIATION BY USING A CONTACT SENSOR - The present invention relates to a laser beam control structure and method. A laser beam control structure of the present invention comprises a handpiece for irradiating laser beams output from a laser beam output device, on a predetermined part; at least one electrode unit positioned at a human body contact portion of the handpiece and receiving hum noise generated from a human body; and a control unit electrically connected to the electrode unit so as to measure the hum noise applied from the electrode unit and to cause the laser beams to be irradiated according to the measured hum noise. According to the present invention, there are advantages in that various types of hum noise generated from a human body are measured without applying an electric current to the human body, and a laser beam is irradiated according to the measured hum noise. | 02-18-2010 |
| 20090318910 | STRUCTURE OF MICRO LASER BEAM IRRADIATION FOR FRACTIONAL MICRO ABLATION AND METHOD OF IRRADIATION - The present invention relates to a micro laser beam irradiation structure and method for micro fractional ablation. A micro laser beam irradiation structure for micro fractional ablation comprises a scanner for enabling laser beams received from a light source for generating the laser beams to be irradiated in predetermined directions; and an interface unit for representing an accumulated density of the laser beams irradiated from the scanner. A micro laser beam irradiation method for micro fractional ablation comprises randomly irradiating, by a scanner, micro laser beams introduced into a handpiece, within the coverage of the area of a tip of the handpiece. According to the present invention, heat generated on the skin through random laser beam irradiation in a micro fractional ablation treatment using a laser can be prevented from being accumulated, and at the same time, damage to the skin due to heat accumulation can be minimized by accurately representing a total amount of laser treatment. | 12-24-2009 |
| 20090105696 | ND:YAG LASER FOR REMOVING FATTY TISSUE - A Nd:YAG laser at a wavelength of 1444 nm for removing fatty tissue is disclosed, which can directly irradiate laser light onto subcutaneous fat and efficiently remove fatty tissue with an adverse reaction on surrounding tissue minimized by using laser light at an oscillating wavelength of 1444 nm which has both a high fat absorptivity and a high water absorptivity among wavelengths that can be oscillated by the Nd:YAG laser. The Nd:YAG laser includes a flash lamp, a Nd:YAG rod, a high reflection mirror, an output coupler, a convergent lens for converging the laser light beam oscillating through the output coupler, an optical fiber for guiding the converged laser beam, and a guide needle for guiding the laser beam from the guide fiber to subcutaneous fat. Both end surfaces of the Nd:YAG rod, an inner surface of the high reflection mirror, and inner and outer surfaces of the output coupler are coated so as to oscillate only the laser beam at the wavelength of 1444 nm through the output coupler. | 04-23-2009 |
| 20080319431 | Method of Curing Inflammatory Acne by Using Carbon Lotion and Pulsed Laser - Disclosed is a method of curing inflammatory acne by applying a carbon lotion onto a face covered with acne, irradiating the applied carbon lotion with a laser pulse having a pulse width of microsecond, and irradiating the applied carbon lotion with a laser pulse having a pulse width of nanosecond to sterilize acne bacilli and open skin pores clogged with sebum, thereby entirely treating the inflammatory acne. The method includes applying the carbon lotion onto epidermis to be cured and pores, irradiating the carbon lotion with a laser pulse to heat and burst the applied carbon lotion. With the method, the inflammatory acne is simply cured without scar. | 12-25-2008 |
