INFLPR a solicitat Agerpres, Federaţiei Sindicale Hermes şi Sindicatului Radiaţia drept la replică la Comunicatul Federaţiei Sindicale Hermes.

Menţionăm că Agerpres a publicat dreptul la replică solicitat (ataşăm solicitarea transmisă Agerpres) la adresa https://www.agerpres.ro/comunicate/2020/03/04/institutul-national-de-cercetare-dezvoltare-pentru-fizica-laserilor-plasmei-si-radiatiilor-drept-la-replica-la-comunicatul-federatiei-sindicale-hermes–459800. Federaţia Sindicală Hermes şi Sindicatul Radiaţia au refuzat să publice dreptul la replică solicitat de INFLPR. Ataşăm solicitarea transmisă celor două Sindicate.

Seminar INFLPR

Miercuri, 19 februarie 2020, ora 11:00

IFA, etaj 9, Sala de Consiliu

Titlu: „Evenimente extreme”

Prezintă: Dr. Florin SPINEANU

Seminar INFLPR

Marţi, 28 Ianuarie 2020, ora 11:00

CETAL, sala de seminar

Contractul nr. 16N /2019

Proiectul: PN 15 15 01 01, „Cercetări emergente de laseri, plasmă, radiaţii şi aplicaţiile lor în domeniile de specializare inteligentă şi interes public”

Faza nr. 20: „Analiza cantitativă a caracteristicilor pulberilor metalice și a porozității componentelor realizate prin manufacturare aditivată prin microtomografie de raze X și procesare de imagini. Comparație cu analiza 2D a imaginilor metalografice”

Termen: 14.11.2019

Responsabil fază: Dr. Ion TISEANU

Prezintă: Dr. Ion TISEANU

Abstract: In the last year, our X-ray tomography laboratory extended its portfolio by commissioning a new high penetration power X-ray microtomography system. This led to new opportunities in the research domains that were prior difficult to tackle, such as high X-ray attenuating samples from the metallographic industry.
The main objectives of this study consisted in the development of several methodologies aided by the industrial X-ray tomograph and designed to assist the additive manufacturing process. Thus, during this work we addressed high and low attenuating samples at different manufacturing stages.
Metallic powders and bulk samples used in the additive manufacturing with high-power laser were analyzed from qualitative and quantitative point of view. To offer an alternative to the limited classical metrological methods, the X-ray tomography instrument has been used as a method of rapid prototyping by iterative comparisons between the initial CAD model and the 3D model of tomographic reconstruction. This provided the opportunity to assist the restauration of industrial components by laser cladding via X-ray tomography, considering the fact that the CAD model serves as input data for the laser processing.
Advanced image protocols for defectoscopy and metrology processing were performed by implementing different algorithms from the main commercial software packages: VGstudio Max and Avizo. A 3D printer was used for manufacturing of polymer test samples with varying filling grades that were further evaluated by the mentioned algorithms. Also, visual comparisons were made between the virtual sections obtained by 3D reconstructions and the optical images extracted by destructive analysis.

Laboratoarele de analiză morfologică (microtomografie) şi elementală (microXRF) din INFLPR au contribuit la instrumentarea cazului Caracal conform Comunicatului de presă al DIICOT! Mai multe detalii se regăsesc pe site-ul DIICOT şi pe site-ul TVR.

The E-MRS 2020 Spring Meeting at the foreseen dates (May 25-29) is CANCELLED and has to be POSTPONED.

There is a growing interest towards pulsed methods like High Power Impulse Magnetron Sputtering (HiPIMS), Pulsed Laser Deposition (PLD), Pulsed Electron Beam Deposition (PED), etc. for thin films and nanostructures synthesis. Indeed, unique properties can be obtained thanks to the specific characteristics of pulsed processes. One of the symposium organizers is Magdalena Nistor from the National Institute for Laser, Plasma and Radiation Physics (NILPRP).

Scope:

Advanced functional thin films require specific properties and their performances are tightly related to their composition, structure, surface morphology and interface properties which, in turn, are dictated by the film growth environment. Pulsed deposition methods of thin films offer unique opportunities to achieve higher performance products than with the continuous methods.

The symposium aims at discussing cutting edge research on pulsed techniques such as HiPIMS, PLD, PED as well as pulsed RF/DC magnetron sputtering, arc discharges and other processes for which the pulsed characteristics play a key role in the film growth. The goal is to better understand the relationship between parameters such as the high kinetic energy of film forming species, pulse width and pulse repetition rate, ionization of plasma species, transport phenomena, non- equilibrium growth, etc. and the film properties. Whatever the pulsed deposition process, this symposium aims at discussing the growth of oxides, nitrides, carbides and related thin films which cover a wide range of controllable properties. Specificities of the pulsed methods effects on thin film stoichiometry, structure and surface morphology will be addressed with particular emphasis on low temperature crystallization and epitaxy, metastable phase stabilization, self-assembled nanostructures, nanocomposites, nanosheets on rigid/flexible substrates, etc. The effect of pulsed deposition methods on the films quality and the promotion of novel or substantially improved structural, chemical, optical, electrical, magnetic, mechanical, biocompatible, bioactive, catalytic properties, etc. will be highlighted. Applications in transparent electronics, spintronics, resistive switching, renewable energy, tribology, catalysis, and sensing are meaningful illustrations of the expected results from the research carried out on films grown by pulsed methods.

Hot topics to be covered by the symposium:

• Advanced functional thin films by pulsed deposition methods with emphasis on the role of process parameters (high kinetic energy of species, pulse width, growth rate, etc.);
• Focus on the relationship between the thin films structure and physical properties;
• Oxide, nitride, carbide and related thin films for a wide range of advanced applications;
• Nanocomposite and metastable phase thin films;
• Self-assembled nanostructures, growth and novel properties;
• Low / room temperature epitaxial growth of thin films by pulsed methods;
• Van der Waals epitaxy on 2D materials and flexible substrates.

List of invited speakers:

• Amaël Caillard, GREMI, CNRS/University of Orléans, France – Comparison between pulsed growth methods and the correlation with the properties of the thin films
• Michael Lorentz, University of Leipzig, Germany – Correlation between pulsed laser deposition and properties of the thin films
• Ulf Helmersson, Linkoping University (Sweden) – Bi-polar HiPMS
• Tetsuhide Shimizu, Tokyo Metropolitan University (Japan) – Peak-current controlled HiPIMS for the deposition of thin films with tailored properties.
• 1 or 2 invited talks will be selected from submitted oral contributions, preferentially chosen in order to address the scope of symposium, to bring to the stage younger researchers who make significant contributions to the field of the symposium, and to also promote the participation of the less represented gender.

Scientific committee members:

• Jacques Perriere, Sorbonne Universities, UPMC Paris 06 & CNRS, Paris, France
• Manfred Martin, RWTH Aachen University, Germany
• Eric Millon, GREMI, University of Orléans, France
• Maryline Guilloux-Viry, University of Rennes 1, France
• Rosalia Serna, Spanish National Research Council, Madrid, Spain
• Maria Luisa Grilli, ENEA Casaccia Research Centre, Italy
• David Babonneau, University of Poitiers-ENSMA, France
• Peter Kelly, Manchester Metropolitan University, UK
• Damien Thiry, University of Mons, Belgium
• Daniel Lundin, University Paris Sud, France
• Anke Weidenkaff, Technical University of Darmstadt, Germany.

A brief presentation of the symposium is found on the EMRS website:
https://www.european-mrs.com/advanced-functional-films-grown-pulsed-deposition-methods-emrs

The E-MRS 2020 Spring Meeting at the foreseen dates (May 25-29) is CANCELLED and has to be POSTPONED.

This laser symposium will bring together leading academic scientists, researchers and laser users and manufacturers for an intensive exchange and share of their experiences on recent progress in Laser Science and Technology, in particular in the fields of laser materials processing and synthesis. It also gives room to present and discuss the most recent innovations, trends, and concerns, practical challenges from nanofabrication via energy to biomedicine. One of the symposium organizers is Andreea Matei from the National Institute for Laser, Plasma and Radiation Physics (NILPRP).

Scope:

This symposium will cover all new advances in laser-matter interaction coupled to recent applications of emerging materials, their fabrication and application. The main objective is to update the basic phenomena involved in the interaction of the wide range of laser systems, where still new and efficient devices including smart optics, high and low repetition rate processing as well as high and low beam fluences come up regularly. The symposium will consider recent progress in laser-assisted additive fabrication (SLS, SLM), laser and intense light applications in printed electronics, laser-based nanofabrication, nano-LIPSS formation, laser lift of biological materials and systems and more emerging techniques such as laser synthesis of nanoparticles in liquids, and will thus offer a unique opportunity for researchers from Europe and worldwide areas to discuss their results in a friendly, interactive, and engaging atmosphere. Laser techniques will facilitate environmental and eco-design through the useful processing of photovoltaic cells, photocatalytic materials, thermoelectric materials and devices, micro and nanosystems for energy storage and conversion. A special focus will be given for these ‘hot’ topics. All contributions on laser interaction with hard, soft and smart materials, targeting future applications from nanoenergy to biomedicine as well as recent progress on the fundamental mechanisms are welcome. The symposium Laser Material Processing: From fundamental interactions to innovative applications will provide a platform to establish interdisciplinary international research collaborations between scientists working in the field of laser-matter interaction.

The symposium will consist of invited presentations by leading scientists in their respective fields and contributed papers for oral and poster presentations. Special emphasis will be given to young scientists presenting high quality research papers. The contributions should concern, but are not limited to the topics listed below.

Hot topics to be covered by the symposium:

• Lasers in nanotechnology and nanofabrication: electronics, magnetics, photonics, sensorics;
• Lasers in environmental technology, decarbonized energy materials, storage, and sustainability;
• Laser 3D micro-structuring: MEMS, MOEMS, photonic crystals, photonic applications; biological devices
• Laser processing of 2D materials;
• Ultra-short, ultra-high power laser interaction with matter: fundamentals and applications;
• Subwavelength laser produced structures for smart optical, electro-optical, electronic and biological devices;
• Laser-induced nanostructures: from theory to applications;
• Lasers for large-scale fabrication: 3D printing, roll-to-roll processing, printed electronics;
• Photonic curing: methods and emerging applications;
• Laser process monitoring and control, time resolved diagnostics, advanced characterization of materials.

List of invited speakers (confirmed):

• Maria Dinescu, Bucharest, Romania
• Avi Katz, Palo Alto, USA
• Emmanuel Stratakis, Greece
• Valentina Dinca, Bucharest, Romania
• Dirk Hauschild, LIMO GmbH, Germany

Publication:
Selected papers will be published as an issue of Applied Surface Science (Elsevier).

A brief presentation of the symposium is found on the EMRS website:
https://www.european-mrs.com/laser-material-processing-fundamental-interactions-innovative-applications-emrs

Seminar INFLPR

Joi, 16 Ianuarie 2020, ora 10:30

CETAL, sala de seminar

Titlu: „Horiba Scientific – 200 de ani de excelenţă în spectroscopie”

Prezintă: BOGDAN CHIRICUTA, Horiba Scientific.

Seminar INFLPR

Miercuri, 15 Ianuarie 2020, ora 11:00

Secţia Laseri, sala de seminar

Contractul nr. 16N /2019

Proiectul: PN 15 15 01 01, „Cercetări emergente de laseri, plasmă, radiaţii şi aplicaţiile lor în domeniile de specializare inteligentă şi interes public”

Faza nr. 25: „Depunerea laser şi caracterizarea morfo-structurală a straturilor nanostructurate de Au pentru biosenzori”

Termen: 14.11.2019

Responsabil fază: Dr Dana MIU

Prezintă: Dr Dana MIU

Autor:    Drd. Alexei ZUBAREV
Titlul:     Contributions to the Study of Quantum Information Protocols in Gaussian Open Systems
Locația: A5, Facultatea de Fizică, Universitatea din Bucureşti
Data:     Joi, 9 Ianuarie 2020, ora 14:00
Scopul:  Acordarea titlului științific de DOCTOR în FIZICĂ

Componenţa Comisiei

Președinte: Prof. Dr. Daniela DRAGOMAN, Facultatea de Fizică, Universitatea din București

Detalii se regăsesc în pdf-ul ataşat.