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Interferometric method for specific impulse determination

Toro Salazar, Cinthya Emma et al · Society of Photo-Optical Instrumentation Engineers · 2018

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One of the main figures of merit in laser-ablative propulsion is the specific impulse, Isp, defined as the impulse per unit weight of fuel, and it is related to the exhaust velocity, ve, by the acceleration of gravity, Isp = ve/g. Being a key magnitude, Isp needs to be accurately determined. It is usually inferred from other measurable quantities: the impulse coupling coefficient, Cm, defined as the ratio of the target momentum produced to the incident laser pulse energy, and Q∗, the laser energy consumed per unit weight of ablated target material. Thus, Isp is calculated as Isp = CmQ∗/g. However, single pulse ablated mass leading to Q∗ is in the nanogram scale and cannot be directly measured by weighting the targets. So, mass loss measurements are performed by analyzing the volumes of the craters produced by a large number of laser pulses. These procedures lead to larger than desired uncertainties in the Isp values. On the other hand, more precise measurements of Isp can be carried out from the direct measurement of the exhaust velocity of the ejected particles by interferometric methods. In this work, a system based on a Nomarsky interferometer has been set up for the time-resolved diagnostic in the nanometric scale of laser ablation plumes. The performance of the implemented system was first validated by measuring the Isp produced by aluminum targets and solid propellants based on metal/salt mixtures. The Cm dependence on laser parameters and binary composition of these propellants have been determined in previous works with a torsion pendulum and a piezoelectric sensor. Once the interferometer performance is characterized, the Isp produced by solid propellants composed of metal (Zn) and metal oxides (ZnO) matrices doped with nanoparticles of different materials is determined and compared. Fil: Toro Salazar, Cinthya Emma. Departamento de Investigaciones en Láseres y Aplicaciones, CITEDEF- UNIDEF (MINDEF-CONICET) ; Argentina Fil: Rinaldi, Carlos Alberto. Departamento de Micro y Nanotecnología - Centro Atómico Constituyentes - Comisión Nacional de Energía Atómica. Fundación Argentina de Nanotecnologia ; Argentina

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APA 7

Toro Salazar, C. E. E. A. (2018). Interferometric method for specific impulse determination. http://hdl.handle.net/11336/94919

MLA

Toro Salazar, Cinthya Emma et al. "Interferometric method for specific impulse determination." 2018. http://hdl.handle.net/11336/94919.

Chicago

Toro Salazar, Cinthya Emma et al. 2018. "Interferometric method for specific impulse determination.". http://hdl.handle.net/11336/94919.

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Toro Salazar, C. E. E. A. 2018, Interferometric method for specific impulse determination, Society of Photo-Optical Instrumentation Engineers, available at: http://hdl.handle.net/11336/94919 [Accessed 30 Jun. 2026].

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Título
Interferometric method for specific impulse determination
Autor / colaboradores
Toro Salazar, Cinthya Emma et al
Editorial
Society of Photo-Optical Instrumentation Engineers
Año de publicación
2018
ISSN
0091-3286
ISSN
0091-3286
Idioma
eng

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