Patent application number | Description | Published |
20090028205 | DISPERSION COMPENSATOR, SOLID-STATE LASER APPARATUS USING THE SAME, AND DISPERSION COMPENSATION METHOD - A dispersion compensator which is compact, low loss, low cost, and highly stable, and yet capable of varying the dispersion compensation amount without changing the output position of an output beam. The dispersion compensator includes: a first and a second planar mirrors disposed parallel to each other, wherein at least either one of the mirrors has group velocity dispersion whose value varies according to the incident angle of light incident on the mirror; a mirror holding means rotatably holding the first and second mirrors in a direction in which the incident angle of light incident on the first mirror is changed while maintaining the parallel state of the mirrors; and a third mirror disposed so as not to be rotated with the first and second mirrors and reflects light reflected sequentially by the first mirror and the second mirror. | 01-29-2009 |
20090086771 | NEGATIVE DISPERSION MIRROR AND MODE-LOCKED SOLID-STATE LASER APPARATUS INCLUDING THE MIRROR - In a mirror including a substrate and a dielectric multilayer coating structure formed on the substrate, the multilayer coating structure includes two mirror-function layer portions, each formed by a plurality of Layers deposited one on another, and a cavity layer that is arranged between the two mirror-function layer portions, and which causes light having a predetermined wavelength to resonate between the two mirror-function layer portions. Further, a dispersion value with respect to the light having the predetermined wavelength is in the range of −600 fs | 04-02-2009 |
20090116516 | MODE-LOCKED SOLID-STATE LASER APPARATUS - A mode-locked solid-state laser apparatus having a resonator which includes a solid-state laser medium, a saturable absorption mirror, and a negative group dispersion element therein, in which the solid-state laser medium and the saturable absorption mirror are disposed at a distance not greater than twice a Rayleigh length which is determined by the beam radius of oscillation light formed at the saturable absorption mirror. The apparatus further includes a dichroic mirror in the resonator that reflects excitation light inputted from a direction crossing the optical axis of the resonator toward the solid-state laser medium and transmits oscillation light. | 05-07-2009 |
20090316735 | MODE-LOCKED SOLID-STATE LASER APPARATUS - In a mode-locked laser-diode-excited laser apparatus: a solid-state laser medium is arranged at a distance of at most twice the Rayleigh range from a saturable absorbing mirror with a depth of absorbing modulation of at least 0.4%; the total intracavity dispersion is smaller than zero and makes oscillating light have such a pulse bandwidth that the saturable absorbing mirror can suppress a background pulses other than soliton pulses repeated with a fundamental repetition period, and the magnitude of the total intracavity dispersion has a predetermined relationship with a pulse width of the oscillating light; and an output mirror is a negative-dispersion mirror being constituted by three or more multilayer mirrors and cavity layers arranged at predetermined intervals between the three or more multilayer mirrors, and causing a mirror dispersion of −3000 fsec | 12-24-2009 |
20090316736 | MODE-LOCKED SOLID-STATE LASER APPARATUS - In a mode-locked laser-diode-excited laser apparatus: a solid-state laser medium is arranged at a distance of at most twice the Rayleigh range from a saturable absorbing mirror with a depth of absorbing modulation of at least 0.4%; the total intracavity dispersion is smaller than zero and makes oscillating light have such a pulse bandwidth that the saturable absorbing mirror can suppress a background pulses other than soliton pulses repeated with a fundamental repetition period, and the magnitude of the total intracavity dispersion has a predetermined relationship with a pulse width of the oscillating light; and an output mirror is a negative-dispersion mirror being constituted by two multilayer mirrors and a cavity layer sandwiched between the two multilayer mirrors, and causing a mirror dispersion of −3000 fsec | 12-24-2009 |
20090316737 | MODE-LOCKED SOLID-STATE LASER APPARATUS - In a mode-locked laser-diode-excited laser apparatus: a solid-state laser medium is arranged at a distance of at most twice the Rayleigh range from a saturable absorbing mirror with a depth of absorbing modulation of at least 0.4%; the total intracavity dispersion is smaller than zero and makes oscillating light have such a pulse bandwidth that the saturable absorbing mirror can suppress a background pulses other than soliton pulses repeated with a fundamental repetition period, and the magnitude of the total intracavity dispersion has a predetermined relationship with a pulse width of the oscillating light; and an output mirror is a negative-dispersion mirror in which high-index layers and low-index layers, having optical thicknesses randomly varying in the range of one-eighth to half of the predetermined wavelength, are alternately laminated, and the negative-dispersion mirror causes a mirror dispersion of −1000 fsec | 12-24-2009 |
20100103960 | MODE LOCKED LASER DEVICE - There is provided a mode locked laser device including: a cavity, the cavity having a semiconductor saturable absorbing mirror and a negative dispersion mirror that controls group velocity dispersion within the cavity, disposed in a straight line; a solid-state laser medium, disposed in the cavity and outputting oscillating light due to excitation light being incident thereon; an excitation unit that causes the excitation light to be incident on the solid-state laser medium; and a cavity holder, the light incident face of the semiconductor saturable absorbing mirror attached to one end of the cavity holder, the negative dispersion mirror attached to the other end of the cavity holder, and the cavity holder integrally supporting the semiconductor saturable absorbing mirror and the negative dispersion mirror. | 04-29-2010 |
20120025185 | ELECTROLUMINESCENCE DEVICE - An electroluminescence device ( | 02-02-2012 |
20140202247 | LASER SOURCE UNIT AND PHOTOACOUSTIC IMAGE GENERATION APPARATUS - A laser source unit obtains Q switch pulse oscillation with a simple structure while continuously switching a plurality of wavelengths. A laser source unit emits pulsed laser beams with a plurality of different wavelengths. A flash lamp radiates excitation light to a laser rod. A pair of mirrors face each other with the laser rod interposed therebetween. The pair of mirrors form an optical resonator. Wavelength selection unit controls the wavelength of light which resonates in the optical resonator to any one of a plurality of wavelengths to be emitted by the laser source unit. Driving unit drives the wavelength selection unit such that the optical resonator performs the Q switch pulse oscillation. | 07-24-2014 |
20140316239 | LASER LIGHT SOURCE UNIT, METHOD OF CONTROLLING THE SAME, AND PHOTOACOUSTIC IMAGE GENERATION DEVICE - Disclosed is a laser light source unit capable of emitting pulse laser light with desired emission intensity even at different wavelengths. When emitting pulse laser light having a wavelength of 750 nm, excitation energy of a flash lamp decreases compared to when emitting pulse laser light having a wavelength of 800 nm. Specifically, the charging time of a capacitor of a pulse generation circuit decreases compared to when emitting pulse laser light having a wavelength of 800 nm. | 10-23-2014 |
20140336482 | LASER DEVICE AND PHOTOACOUSTIC MEASUREMENT DEVICE - Disclosed is a laser device which can emit light having first and second wavelengths, having the advantage of increasing laser efficiency without causing an increase in cost. A flash lamp irradiates excitation light onto a laser rod. An optical resonator includes a pair of mirrors facing each other with the laser rod interposed therebetween. A wavelength switching unit includes a long path filter which transmits light having a wavelength equal to or greater than a first wavelength. The wavelength switching unit inserts the long path filter on the optical path of the optical resonator when the wavelength of laser light to be emitted is the first wavelength. | 11-13-2014 |
Patent application number | Description | Published |
20090086772 | MODE-LOCKED SOLID-STATE LASER APPARATUS - In a soliton mode-locked solid-state laser apparatus having a resonator which includes therein a solid-state laser medium, a saturable absorption mirror, and a negative group velocity dispersion element, the solid-state laser medium and saturable absorption mirror are disposed in close proximity to each other at a distance not greater than twice a Rayleigh length. Then, the absorption modulation depth ΔR of the the saturable absorption mirror is set to a value not less than 0.4%, and the absolute value |D|(D<0) of a total intracavity dispersion amount D when light having a predetermined wavelength makes one round trip in the resonator, which is represented by the following relational expression, is set within a pulse bandwidth in which operation modes other than a fundamental period soliton pulse can be suppressed by the saturable absorption mirror. | 04-02-2009 |
20100037695 | PHOTOACOUSTIC IMAGING APPARATUS - A photoacoustic imaging apparatus is equipped with: light generating means, for emitting measuring light; light irradiating means, for irradiating the measuring light onto a target; ultrasound detecting means, for detecting ultrasonic waves which are generated in the target portion by the irradiation of the measuring light; and tomographic image obtaining means, for obtaining a tomographic image of the target based on signals of the detected ultrasonic waves. The light generating means includes a pulse laser and light modulating means, which are employed to emit a pulse train having a plurality of pulse beams having pulse widths within a range from 1 nsec to 100 nsec as the measuring light. The tomographic image obtaining means generates processed signals by performing a correlating process between transmission signals of the pulse train and the signals of the ultrasonic waves, and obtains the tomographic image of the target based on the processed signals. | 02-18-2010 |
20120310047 | LIGHT SOURCE APPARATUS - A light source apparatus includes a first light source for emitting first light which is inputted to alight guide section that guides light to an examination area and projects the light onto the examination area and a second light source for emitting second light which is inputted to the light guide in which exit angles of the first and second light are changed simultaneously by an exit angle changing section, the first and second light being guided by the light guide section and projected onto the examination area. | 12-06-2012 |
Patent application number | Description | Published |
20120238821 | OPTICAL CONNECTOR AND ENDOSCOPE SYSTEM - Provided is an optical connector including: an SI-type light source side optical fiber which is disposed on the light source side and an SI-type light receiving side optical fiber which is disposed on the light receiving side. Both optical fibers are optically coupled to each other by disposing an end surface of the light source side optical fiber and an end surface of the light receiving side optical fiber so as to face each other. The light source side optical fiber and the receiving side optical fiber are attachable to and detachable from each other. The light source side optical fiber includes a taper portion in which the diameter of the core portion increases toward the end surface of the light source side optical fiber. | 09-20-2012 |
20120245420 | ENDOSCOPE APPARATUS - To prevent excitation light output from an output end of a light guiding portion causing damage to the eye when the light guiding portion which guides the special light output from a light source is detached from the insertion portion. Provided is an endoscope apparatus including: an insertion portion that is inserted into a body so as to irradiate special light to a subject observation portion inside the body and receives light output from the subject observation portion by the irradiation of the special light; and a light guiding portion that is optically connected to the insertion portion and guides the special light output from a light source to the insertion portion, wherein an output end for the special light in the light guiding portion is equipped with a diffusing portion that diffuses the special light guided by the light guiding portion. | 09-27-2012 |
20140148660 | Laser source unit, control method thereof, photoacoustic image generation apparatus and photoacoustic image generation method - Using a laser source unit, a plurality of wavelengths are switched at a high speed without increasing a rotation speed of a birefringent-filter. A Q switch and a birefringent filter are inserted into an optical resonator including a pair of mirrors facing each other with a laser rod interposed therebetween. The birefringent-filter changes an oscillation wavelength of the optical resonator in association with rotational displacement. Driving unit reciprocatively rotates the birefringent-filter in a predetermined range including a discontinuous point of change characteristics of a transmission wavelength for the rotational displacement. An emission control unit irradiates the laser rod with excitation light from a flash lamp, and then turns on the Q switch at a timing when a rotational displacement position of the birefringent-filter is set to a position corresponding to the wavelength of the pulse laser beam to be emitted, to cause the pulse laser beam to be emitted. | 05-29-2014 |
20140148680 | Laser source unit, control method thereof, photoacoustic image generation apparatus and photoacoustic image generation method - A pulse laser beam is emitted in a desired wavelength sequence using a laser light source unit. A Q switch and a birefringent filter are inserted into an optical resonator including a pair of mirrors and facing each other with a laser rod interposed therebetween. The birefringent filter changes an oscillation wavelength of the optical resonator in association with rotational displacement. The rotation control unit rotates the birefringent filter at a predetermined rotation speed depending on the number of wavelengths included in the wavelength sequence of the pulse laser beam to be emitted. An emission control unit irradiates the laser rod with excitation light, and then turns on the Q switch at a timing when a rotational-displacement-position of the birefringent filter is set to a position corresponding to the wavelength of the pulse laser beam to be emitted, to cause the pulse laser beam to be emitted. | 05-29-2014 |
20140148681 | Photoacoustic image generation apparatus and acoustic wave unit - A pulse laser beam is emitted in a desired wavelength sequence using a laser source unit. A Q switch and a birefringent filter are inserted into an optical resonator including a pair of mirrors and facing each other with a laser rod interposed therebetween. The birefringent filter changes an oscillation wavelength of the optical resonator in association with rotational displacement. A trigger control circuit rotates the birefringent filter at a predetermined rotation speed depending on the number of wavelengths included in the wavelength sequence of the pulse laser beam to be emitted. In addition, the trigger control circuit irradiates the laser rod with excitation light, and turns on the Q switch at a timing when a rotational displacement position of the birefringent filter is set to a position corresponding to the wavelength of the pulse laser beam to be emitted, to cause the pulse laser beam to be emitted. | 05-29-2014 |
20140148682 | Photoacoustic image generation apparatus and acoustic wave unit - Using a laser source unit, pulse laser beams having a plurality of wavelengths is switched and emitted. A Q switch is inserted into an optical resonator including a pair of mirrors which face each other with a laser rod interposed therebetween. A wavelength selection unit includes a plurality of band pass filters having different transmission wavelengths, and selectively inserts the plurality of band pass filters into a light path of the optical resonator. A trigger control circuit controls driving unit that drives the wavelength selection unit so that the band pass filters inserted into the light path of the optical resonator are switched at a predetermined switching speed. In addition, the trigger control circuit causes the laser rod to be irradiated with excitation light from a flash lamp, and then turns on the Q switch at a timing when the wavelength selection unit inserts the band pass filter. | 05-29-2014 |