Manni J, Harris D, Fan TY, High-gain (43 dB), high-power (40W), highly efficient multipass amplifier at 995 nm in Yb:LiYF4, Optics Communications 417: 54-56 (2018)

Ekelof M, Manni J, Nazari M, Bokhart M, Muddiman DC, Characterization of a novel miniaturized burst-mode infrared laser system for IR-MALDESI mass spectrometry imaging, Analytical and Bioanalytical Chemistry Feb. 2018, on-line.

Bokhart MT, Manni J, Garrard KP, Ekelof M, Nazari M, Muddiman DC, IR-MALDESI mass spectrometry imaging at 50 micron spatial resolution, J Am Soc Mass Spectrom 28(10): 2099-2107 (2017).

Manni JG and Goodman JW, “Versatile method for achieving 1% speckle contrast in large-venue laser projection displays using a stationary multimode optical fiber,” Optics Express 20: 11288 (2012).

Manni JG, Hybl JD, Rand DA, Ripin DJ, Ochoa J, Fan TY, “100W Q-switched Cryogenically Cooled Yb:YAG Laser,” IEEE J Quantum Electronics 46: 95 (2010).

Bornstein E, Hermans W, Gridley S, Manni J, “Near-infrared Photoinactivation of Bacteria and Fungi at Physiologic Temperatures,” Photochemistry and Photobiology 85: 1364-1374 (2009).

Manni JG, “Amplification of Microchip Oscillator Emission Using a Diode-pumped Wedged-slab Amplifier,” Optics Communications 252:117-126 (2005).

Wall KF, Smucz JS, Pati B, Isyanova Y, Moulton PF, Manni JG, “A Quasi-Continuous-wave Deep Ultraviolet Laser Source,” IEEE J Quantum Electronics 39:1160-1169 (2003).

Wall KF, Smucz JS, Isyanova Y, Pati B, Moulton PF, Manni JG, “A 200-mW, 205-nm, Quasi-CW, Deep Ultraviolet Laser Source,” OSA TOPS Advanced Solid-State Lasers (2002).

Isyanova Y, Manni JG, Welford D, Jaspan M, Russell JA, “High-Power, Passively-Q-Switched Microlaser – Power Amplifier System,” OSA TOPS Advanced Solid-State Lasers 50:186-190 (2001).

Snell KJ, Lee D, JG Manni, “High-Average-Power, High-Repetition-Rate, Side-Pumped Nd:YVO4 Slab Laser MOPA System,” CLEO 1999, Baltimore, MD, Post-deadline paper CPD1-1.

Finch A, Ohsako Y, Sakuma J, Deki K, Horiguchi M, Mori Y, Sasaki T, Wall K, Harrison J, Moulton PF, Manni JG, “Development of a High-Power, High-Repetition-Rate, Diode-Pumped, Deep-UV Laser System,” OSA TOPS  Advanced Solid-State Lasers 19:16-18 (1998).

Wall KF, Snell KJ, Lee D, Jaspan MA, Francis MW, Moulton PF, Manni JG, “High-Power CW-Pumped Nd:YLF Lasers,” 1998 Diode Laser Technology Review, Albuquerque, NM.

Moulton PF, Manni JG, Rines GA, “Spectroscopic and Laser Characteristics of Er,Cr:YSGG,” IEEE J Quantum Electronics 24:960-973 (1988).



Manni JG, Goodman JW, “Low-speckle light sources and displays employing multimode optical fiber,” US #9,046,697 B2, (June 2015). Assigned to JGM Associates, Inc.

Manni JG, “High-Gain Diode-Pumped Laser Amplifier,” US #7,590,160 B2 (Sept. 15, 2009) and US #7,961,771 B2 (June 2011). Assigned to JGM Associates, Inc.

Manni JG, Martinsen RJ, “Systems and Methods for Speckle Reduction Through Bandwidth Enhancement,” US #6,975,294 B2, Issued Dec. 13, 2005, assigned to Corporation for Laser Optics Research (Portsmouth, NH).

Manni JG, Silva T, “Single Channel Scope Cleaning  Method and Apparatus,” US #5,225,001, Issued July 6, 1993. Assigned to Healthtek (Nevada, City, CA).


Publications, non-peer-reviewed

Manni JG, Basic Aspects of Medical and Dental Lasers, (August 2013), self-published via

Manni JG, “High Power Diode-Based Lasers for Medical Applications,” Biophotonics International, Jan/Feb 1997, 40-47.

Manni JG, “New Hybrid Device Expands Microscope Capabilities,” Biophotonics International, May/June 1996, pp. 42-49.

Manni JG, “Two-Photon Excitation Expands the Capabilities of Laser-Scanning Microscopy,” Biophotonics International, Jan/Feb 1996, pp. 44-53.

Manni JG, “Lasers Illuminate the Human Genome Project,” Biophotonics International, Sept/Oct 1995, pp. 48-57.

Manni JG, Therapeutic Applications of Advanced Lasers, 750-page report published by JGM Associates (1993).

Manni JG, Dental Applications of Advanced Lasers, 200-page report published by JGM Associates (2007).