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James A Piper

Showing results (1-10 of 50) with videos related to

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Analytical Chemistry|February 25, 2011
Time-gated luminescence microscopy allowing direct visual inspection of lanthanide-stained microorganisms in background-free conditionDayong Jin, James A Piper
Optics Letters|November 1, 2003
Compact and efficient kinetically enhanced copper-vapor lasers of high (100-W) average powerRichard P Mildren, James A Piper
Annals of the New York Academy of Sciences|July 4, 2008
Time-gated luminescence microscopyRussell E Connally, James A Piper
Analytical Chemistry|July 29, 2021
Rapid, Simple, and Inexpensive Spatial Patterning of Wettability in Microfluidic Devices for Double Emulsion GenerationHangrui Liu, James A Piper, Ming Li
Optics Letters|December 3, 2010
1240 nm diamond Raman laser operating near the quantum limitAlexander Sabella, James A Piper, Richard P Mildren
Optics Letters|March 7, 2007
Solid-state Raman laser generating discretely tunable ultraviolet between 266 and 320 nmRichard P Mildren, Hamish Ogilvy, James A Piper
Optics Letters|July 1, 2014
Diamond Raman laser with continuously tunable output from 3.38 to 3.80 μmAlexander Sabella, James A Piper, Richard P Mildren
Optics Letters|April 6, 2007
All-solid-state 704 mW continuous-wave yellow source based on an intracavity, frequency-doubled crystalline Raman laserPeter Dekker, Helen M Pask, James A Piper
Optics Express|November 24, 2011
Efficient conversion of a 1.064 μm Nd:YAG laser to the eye-safe region using a diamond Raman laserAlexander Sabella, James A Piper, Richard P Mildren
Optics Express|June 24, 2009
Continuous-wave, intracavity doubled, self-Raman laser operation in Nd:GdVO(4) at 586.5 nmPeter Dekker, Helen M Pask, David J Spence, et al.
Pageof 5

Showing results (1-10 of 50) with videos related to

Sort By:
Pageof 5
Analytical Chemistry|February 25, 2011
Time-gated luminescence microscopy allowing direct visual inspection of lanthanide-stained microorganisms in background-free conditionDayong Jin, James A Piper
Optics Letters|November 1, 2003
Compact and efficient kinetically enhanced copper-vapor lasers of high (100-W) average powerRichard P Mildren, James A Piper
Annals of the New York Academy of Sciences|July 4, 2008
Time-gated luminescence microscopyRussell E Connally, James A Piper
Analytical Chemistry|July 29, 2021
Rapid, Simple, and Inexpensive Spatial Patterning of Wettability in Microfluidic Devices for Double Emulsion GenerationHangrui Liu, James A Piper, Ming Li
Optics Letters|December 3, 2010
1240 nm diamond Raman laser operating near the quantum limitAlexander Sabella, James A Piper, Richard P Mildren
Optics Letters|March 7, 2007
Solid-state Raman laser generating discretely tunable ultraviolet between 266 and 320 nmRichard P Mildren, Hamish Ogilvy, James A Piper
Optics Letters|July 1, 2014
Diamond Raman laser with continuously tunable output from 3.38 to 3.80 μmAlexander Sabella, James A Piper, Richard P Mildren
Optics Letters|April 6, 2007
All-solid-state 704 mW continuous-wave yellow source based on an intracavity, frequency-doubled crystalline Raman laserPeter Dekker, Helen M Pask, James A Piper
Optics Express|November 24, 2011
Efficient conversion of a 1.064 μm Nd:YAG laser to the eye-safe region using a diamond Raman laserAlexander Sabella, James A Piper, Richard P Mildren
Optics Express|June 24, 2009
Continuous-wave, intracavity doubled, self-Raman laser operation in Nd:GdVO(4) at 586.5 nmPeter Dekker, Helen M Pask, David J Spence, et al.
Pageof 5