Power
, , and . Defining Power Efficient Residential Electric Appliances and Equipment. Berkeley, Ca: Lawrence Berkeley National Laboratory , 2026.
, , , , , , , , , , , , , , , and . "Zero Liquid Discharge and Water Reuse in Recirculating Cooling Towers at Power Facilities: Review and Case Study Analysis." ACS ES&T Engineering 2.3 (2022) 508–525.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, , , , , , , , , and . Computer usage and national energy consumption: Results from a field-metering study. 2014.
, , , , and . "Response to "Comment on ’Evidence for phase explosion and generation of large particles during high power nanosecond laser ablation of silicon’"." Applied Physics Letters 79.3 (2001) 444–445.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, , , and . "Explosive change in crater properties during high power nanosecond laser ablation of silicon." Journal of Applied Physics 88.3 (2000) 1638–1649.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, , , , and . "Evidence for phase-explosion and generation of large particles during high power nanosecond laser ablation of silicon." Applied Physics Letters 76.6 (2000) 783–785.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, and . "Monitoring stress power during high-power pulsed laser-material interactions." Applied Surface Science 96-98 (1996) 149–153.
, , and . "Monitoring laser-energy coupling to solid materials: Plasma-shielding and phase change." Materials Science and Engineering B-Solid State Materials for Advanced Technology 45 (1997) 172–179.
, and . "Laser-Induced Stresses Versus Mechanical-Stress Power Measurements During Laser-Ablation of Solids." Applied Physics Letters 67 (1995) 3227–3229.