Laser Cutting; Experimental Measurement of Fluctuations in Cut Front Temperature and Morphology. Lasers in Manufacturing and Materials Processing, Nov 28, 2025. [PUMA: cutting goniometer laser myown peer pyrometer] URL
Laser Cutting; Experimental Measurement of Fluctuations in Cut Front Temperature and Morphology. Lasers in Manufacturing and Materials Processing, Nov 28, 2025. [PUMA: myown laser peer cutting pyrometer goniometer] URL
Improving pyrometric temperature measurements for quality monitoring of laser processes. 2025. [PUMA: diagnostics myown processmonitoring pyrometer]
Improving pyrometric temperature measurements for quality monitoring of laser processes. 2025. [PUMA: myown diagnostics processmonitoring pyrometer]
Correcting the Influence of the Angle-Dependent Emissivity on Pyrometric Temperature Measurements for Laser Processes. Lasers in Manufacturing and Materials Processing, Feb 1, 2025. [PUMA: Copper Diagnostics Pyrometer myown peer processmonitoring] URL
Correcting the Influence of the Angle-Dependent Emissivity on Pyrometric Temperature Measurements for Laser Processes. Lasers in Manufacturing and Materials Processing, Feb 1, 2025. [PUMA: myown Pyrometer Diagnostics peer processmonitoring Copper] URL
Influence of geometry variations during pyrometric temperature measurement in laser material processing. 2024. [PUMA: copper diagnostics myown processmonitoring pyrometer]
Influence of geometry variations during pyrometric temperature measurement in laser material processing. 2024. [PUMA: myown diagnostics copper processmonitoring pyrometer]
Influence of geometry variations during pyrometric temperature measurement in laser material processing. Procedia CIRP, (124):540–543, Elsevier BV, 2024. [PUMA: copper diagnostics myown peer processmonitoring pyrometer] URL
Influence of geometry variations during pyrometric temperature measurement in laser material processing. Procedia CIRP, (124):540–543, Elsevier BV, 2024. [PUMA: myown diagnostics peer copper processmonitoring pyrometer] URL
In-process determination of the local hardness during laser beam welding of steel. 2023. [PUMA: diagnostics hardening laser myown processmonitoring pyrometer steel welding ybyag]
In-process determination of the local hardness during laser beam welding of steel. 2023. [PUMA: steel hardening myown ybyag welding diagnostics laser processmonitoring pyrometer]
Online determination of the local hardness during laser beam welding of steel. 2023. [PUMA: diagnostics hardening laser myown processmonitoring pyrometer steel welding ybyag]
Online determination of the local hardness during laser beam welding of steel. 2023. [PUMA: steel hardening myown ybyag welding diagnostics laser processmonitoring pyrometer]
Online determination of the local hardness during laser beam welding of steel. 2023. [PUMA: Diagnostics Hardening Laser ProcessMonitoring Pyrometer Steel Welding YbYAG myown]
The role of emissivity in quotient pyrometry. 2020. [PUMA: Diagnostics Pyrometer myown]
The role of emissivity in quotient pyrometry. 2020. [PUMA: myown Pyrometer Diagnostics from:michaeljarwitz]
Zeitlich und örtlich geregelte Temperaturfelder bei der Werkstoffbearbeitung mit dem Elektronenstrahl und dem Laserstrahl. Schweissen und Schneiden, (1):24-31, 2022. [PUMA: ProcessMonitoring Pyrometer SurfaceTreatment laser myown] URL
Zeitlich und örtlich geregelte Temperaturfelder bei der Werkstoffbearbeitung mit dem Elektronenstrahl und dem Laserstrahl. Schweissen und Schneiden, (1):24-31, 2022. [PUMA: myown Pyrometer from:michaelsawannia ProcessMonitoring laser SurfaceTreatment] URL
Transmissionseigenschaften einer Optik zur Berücksichtigung bei pyrometrischen Temperaturmessungen. IFSW00-16June 2000. [PUMA: Laser OpticalElements Pyrometer Seibold,Gabi Studienarbeit]