Patent
Apparatus and method for generating high-intensity optical pulses with an enhancement cavity
| العنوان: | Apparatus and method for generating high-intensity optical pulses with an enhancement cavity |
|---|---|
| Patent Number: | 8,649,086 |
| تاريخ النشر: | February 11, 2014 |
| Appl. No: | 12/894620 |
| Application Filed: | September 30, 2010 |
| مستخلص: | An enhancement cavity includes a plurality of focusing mirrors, at least one of which defines a central aperture having a diameter greater than 1 mm. The mirrors are configured to form an optical pathway for closed reflection and transmission of the optical pulse within the enhancement cavity. Ring-shaped optical pulses having a peak intensity at a radius greater than 0.5 mm from a central axis are directed into the enhancement cavity. Accordingly, the peak intensity of the optical pulse is distributed so as to circumscribe the central apertures in the apertured mirrors, and the mirrors are structured to focus the pulse about the aperture toward a central spot area where the pulse is focused to a high intensity. |
| Inventors: | Kartner, Franz X. (Newton, MA, US); Abram, Gilberto (Brooklyn, NY, US); Putnam, William P. (Cambridge, MA, US); Huang, Shu-Wei (Cambridge, MA, US); Falcao-Filho, Edilson L. (Recife, BR) |
| Assignees: | Massachusetts Institute of Technology (Cambridge, MA, US) |
| Claim: | 1. A method for generating high-intensity optical pulses comprising: generating an ultrashort pulsed beam including ring-shaped optical pulses having optical intensity distributions peaking at a radius greater than 0.5 mm from a central propagation axis; directing the ring-shaped optical pulses into an enhancement cavity comprising a plurality of focusing mirrors, including a first apertured mirror and second apertured mirror, each of which defines a central aperture with a diameter greater than 1 mm; reflecting the optical pulses with the mirrors in a closed loop inside the enhancement cavity, the peak intensity of the optical pulses striking the apertured mirrors about the central apertures, the optical pulses additively combining in the enhancement cavity to produce an enhanced optical pulse of higher energy; directing at least one charged particle into the enhancement cavity through the central aperture in the first apertured mirror, the enhanced optical pulse colliding with the charged particle and transferring energy to the charged particle to accelerate the charged particle; and allowing the accelerated charged particle to exit the enhancement cavity, wherein the accelerated charged particle passes through the central aperture of the second apertured mirror as the accelerated charged particle exits the enhancement cavity. |
| Claim: | 2. The method of claim 1 , wherein the ring-shaped optical pulses are generated by passing optical pulses from a laser through a beam transformer. |
| Claim: | 3. A method for generating high-intensity optical pulses comprising: generating an ultrashort pulsed beam including ring-shaped optical pulses having optical intensity distributions peaking at a radius greater than 0.5 mm from a central propagation axis; directing the ring-shaped optical pulses into an enhancement cavity comprising a plurality of focusing mirrors, including a first apertured mirror and a second apertured mirror, each of which defines a central aperture with a diameter greater than 1 mm; reflecting the optical pulses with the mirrors in a closed loop inside the enhancement cavity, the peak intensity of the optical pulses striking the apertured mirrors about the central apertures, the optical pulses additively combining in the enhancement cavity to produce an enhanced optical pulse of higher energy; and directing a beam of electrons into the enhancement cavity through the central aperture in the first apertured mirror, the enhanced optical pulse colliding with electrons in the beam to release energy in the form of x-ray radiation, wherein the beam of electrons and x-rays pass through the central aperture of a the second apertured mirror and exit the enhancement cavity. |
| Claim: | 4. An apparatus for generating high-intensity optical pulses comprising: an enhancement cavity including a plurality of focusing mirrors, including a first apertured mirror and a second apertured mirror, each defining a central aperture with a diameter greater than 1 mm and the mirrors configured to form an optical pathway for closed reflection and transmission of an optical pulse within the enhancement cavity; a source of ring-shaped optical pulses having optical intensity distributions peaking at a radius greater than 0.5 mm from a central propagation axis, wherein the source is configured and positioned to direct the ring-shaped optical pulses into the enhancement cavity for circulation within the enhancement cavity; and a source of (a) charged particles or (b) electrons configured and positioned to direct charged particles or electrons into the enhancement cavity and through the central apertures of the first and second apertured mirrors. |
| Claim: | 5. The apparatus of claim 4 , wherein the source is configured and positioned to direct the ring-shaped optical pulses through one of the mirrors as the ring-shaped optical pulses enter the enhancement cavity. |
| Claim: | 6. The apparatus of claim 4 , where the source of ring-shaped optical pulses comprises a laser and a beam transformer. |
| Claim: | 7. An apparatus for generating high-intensity optical pulses comprising: an enhancement cavity including a plurality of focusing mirrors, wherein at least two of the mirrors define a central aperture with a diameter greater than 1 mm, and wherein the mirrors are configured to form an optical pathway for closed reflection and transmission of an optical pulse within the enhancement cavity; and a source of ring-shaped optical pulses having optical intensity distributions peaking at a radius greater than 0.5 mm from a central propagation axis, wherein the source is configured and positioned to direct the ring-shaped optical pulses into the enhancement cavity for circulation within the enhancement cavity. |
| Current U.S. Class: | 359/346 |
| Patent References Cited: | 3909744 September 1975 Wisner et al. 5394411 February 1995 Milchberg et al. 5963359 October 1999 Shinozaki et al. 7321604 January 2008 Umstadter et al. 7391850 June 2008 Kaertner et al. 7672342 March 2010 Gohle et al. 2006/0268949 November 2006 Gohle et al. |
| Other References: | Moll, Kevin D., et al., “Output Coupling Methods for Cavity-Based High-Harmonic Generation”, 14 Optics Express 8189-8197 (Sep. 4, 2006). cited by applicant Korean Intellectual Property Office, “International Search Report and Written Opinion” (for PCT/US2010/050841—PCT application corresponding to present US application) (Jun. 23, 2011). cited by applicant |
| Primary Examiner: | Bolda, Eric |
| Attorney, Agent or Firm: | Modern Times Legal Sayre, Robert J. |
| رقم الانضمام: | edspgr.08649086 |
| قاعدة البيانات: | USPTO Patent Grants |
| الوصف غير متاح. |