A nail care system which contains a portable case, drying compartments and drying compartment covers. The drying compartments are vertically oriented on opposite sides of the portable case. The drying compartment covers are pivotally mounted to the portable case and open and close like a gull-wing t
A nail care system which contains a portable case, drying compartments and drying compartment covers. The drying compartments are vertically oriented on opposite sides of the portable case. The drying compartment covers are pivotally mounted to the portable case and open and close like a gull-wing type door. The vertically oriented drying compartments allow the user to place their hands in a comfortable, vertical position in front of them during the drying process. The vertical orientation also reduces the footprint of the portable case. Further, the nail care device may be adapted to dry toenails.
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A nail care system which contains a portable case, drying compartments and drying compartment covers. The drying compartments are vertically oriented on opposite sides of the portable case. The drying compartment covers are pivotally mounted to the portable case and open and close like a gull-wing t
A nail care system which contains a portable case, drying compartments and drying compartment covers. The drying compartments are vertically oriented on opposite sides of the portable case. The drying compartment covers are pivotally mounted to the portable case and open and close like a gull-wing type door. The vertically oriented drying compartments allow the user to place their hands in a comfortable, vertical position in front of them during the drying process. The vertical orientation also reduces the footprint of the portable case. Further, the nail care device may be adapted to dry toenails. 10, Oct. 1992. Fermann, "Environmentally stable Kerr-type mode-locked erbium fiber laser producing 360-fs pulses" Optics Letters, v. 19, No. 1, Jan. 1994. T. Morioka, et al, "Multi-WDM-Channel, Gbit/s pulse generation from a single lasersource utilizing LD-pumped supercontinuun in optical fibers", Photon.Tech. Lettl., vol. 6,No. 3, 365-368, 1994. T. Morioka, Multi-WDM-Channel, Gbit/s Pulse Generation from a Single Laser Source Utilizing LD-Pumped Supercontinuum in Optical Fibers, vol. 6 IEEE Photonics, Mar. 1994. Zhu, Dual-Wavelength Picosecond Optical Pulse Generation Using an Actively Mode-locked Multichannel Grating Cavity Laser, vol. 6, IEEE Photonics, Mar. 1994. Hong, "Subpicosecond pulse amplification in semiconductor laser amplifies:theorgy and experiment" vol. 30, No. 4, IEEE Journal, Apr. 1994. C. L. Wang, et al., "Dual-wavelength actively modelocked laser-diode array with an external grating-loaded cavity", Optics Lett., vol. 19, 1456-1458, 1994. M. C. Nuss, et al., "Dense WDM with femtosecond laser pulse", IEEE/LEOS 1994 Annual Meeting, Boston, MA, 1994. Lenz, "All-solid-state femtosecond source at 1.55m" vol. 20, No. 11, Optics Letters Jun., 1995. Mellish, "Diode-pumped CR:LiSAF all-solid-state femtosecond oscillator and regenerative amplifier" Vo. 20, No. 22, Optics Letters, Nov. 1995. Kopf, All-in-one dispersion-compensating saturable absorber mirror for compact femtosecond laser sources, vo. 21, No. 7, Optics Letters, Apr. 1996. Tamura, Dispersion-tuned harmonically mode-locked fiber ring laser for self-synchronization to an external clock: vo. 21, No. 24, Optics Letters, Dec. 1996. Read, "Low-threshold operation of an ultrashort-pulse mode-locked Ti:sapphire Laser", vo. 21, No. 7 Optics Letters, Apr. 1996. Zhang, "Self-starting mode-locked femtosecond forsterite laser with a semiconductor saturable-absorber mirror", vol. 22, No. 13, Optics Letters, Jul. 1997. Jung, "Self-starting 6.5-fs pulses from a Ti:sapphire laser", vo. 22, No. 13, Optics Letters, Jul. 1997. Xu, Ultrabroadband ring oscillator for sub-10-fs pulse generation:, vo. 21, No. 16 Optics Letters, Aug. 1996. Hong, Femtosecond Self- and Cross-Phase Modulation in Semiconductor Laser Amplifiers, vo. 2, No. 3, IEEE Journal, Sep. 1996 Aus der Au, "60=fs pulses from a diode-pumped ND:glass laser", vo. 22, No. 5 Optics Letters, Mar. 1997. Hankla, "Tunable short-pulse beat-wave laser source operating at 1 m" vo. 22, No. 22 Optics Letters, Nov. 1997. Shi, Multiwavelength 10 GH Picosecond Pulse Generation from a Single-Stripe Semiconductor Traveling Wave Amplified Using Active Mode Locking in an External Cavity, OSA/IEEE-LEOS Spring Topical Meeting Ultrafast Electronicsand Optoelectronics, UMB4, Lake Taho, NV, 1997. Shi, "4×2.5-Gbit/s WDM_TDM laser source based on mode-locked semiconductor lasers" vo. 3075, SPIE, Apr. 1997. Gee, et al, "Intracavity gain and absorption dynamics of hybrid modelocked semiconductor lasers using multiple-quanturn-well saturable absorbers", Appl. Phys. Lett., 17, (18), pp. 2569-2571, Nov. 3, 1997. Sorokina, "14-fs pulse generation in Kerr-lens mode-locked prismless Cr:LiSGaF and Cr:LiSAF lasers:observation of pulse self-frequency shift", vo. 22, No. 22 Optics Letters, Nov. 1997. Hong, "Subpicosecond pulse amplification in semiconductor laser amplifies: theorgy and experiment" vol. 30, No. 4, IEEE Journal, Apr. 1994. Shi, et al., "20 Gbit/s optical WDM transmitter using single-stripe multiwavelength modelocked semiconductor laser", Electronics Letters, vol. 34, No. 2, pp. 179-180, Jan. 22, 1998. P. J. Delfyett, et al, "Intercavity Spectral Shaping in External Cavity Mode-locked Semiconductor Diode Lasers", vo. 4, No. 2 IEEE J. of Quantum Electronics, Mar./Apr. 1998.
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Edelman Estelle F. (3300 NE. 191st St. Apt. 1502 Miami Beach FL 33180), Apparatus and method for drying nail polish.
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