Author Archive

 

 

Josep Fontcuberta. Lecture on “Les nanotecnologies a la societat de la Informació” a Aula Extensió Universitaria de Caldes. Caldes de Montbui, 21.11.2018

 

Josep Fontcuberta. Lecturing for broad audience on “The Magnetism of Magnets” at EXPOMINER 2018 (Barcelona) (10-11-2018)

 

 

 

Nit Jove de la Recerca a CosmoCaixa. Josep Fontcuberta participa al Scientific Corner, el divendres 28 de setembre, a partir de 21:30h amb una xerrada sobre “Electrons i espins: una parella més eficient si està trencada”

ICMAB PhD Programme Severo Ochoa fellowships 2018-2019

Within the Severo Ochoa programme, 4 PhD fellowships are offered by the ICMAB-CSIC for the academic year 2018-2019.

 

DEADLINE FOR APPLICATION: 11 OCTOBER 2018

 

ICMAB-CSIC is an internationally renowned public research institute in Advanced Functional Materials integrated in the National Research Council of Spain (CSIC). The mission of ICMAB is to generate new knowledge in Materials Science through excellent scientific research useful for society and industry.ICMAB has 60 permanent and 90 non-permanent scientists and more than 220 people divided in eight Research Groups. The center has outstanding international competitiveness, with a large number of high impact articles and citations and European research projects participation (9 ERC grants at present), with the strongest international leadership position in the specific domains of Functional molecular, supramolecular and oxide materials. The center has been awarded with the label of Center of Excellence “Severo Ochoa” by the Spanish Ministry in 2016.

The Strategic Research Program includes five mission-oriented Research Lines to face three social grand-challenges: clean and secure energy, smart and sustainable electronics and smart nanomedicine. The strategic Research Lines are: 
1/ Energy storage and conversion
2/ Superconductors for power applicaations
3/ Oxide electronics
4/ Molecular electronics
5/ Multifunctional nanostructured biomaterials

The ICMAB – CSIC is one of the top research institutions named as a Severo Ochoa Research Centre by the Ministry of Economy and Competitiveness (MINECO) in charge of research and innovation policy in Spain, which recognizes excellence at the highest international level in terms of research, training, human resources, outreach and technology transfer. The Severo Ochoa award provides 4 M€ over 2016-2019 to implement ICMAB’s Research and Human Resources Programmes.

 

http://icmab.es/icmab-phd-programme-severo-ochoa-fellowships-2018-2019

 

 

Oferta treballs de Final de Grau per a estudiants Física, Física+ Matemàtiques, Física + Química de la Universitat Autònoma de Barcelona. Curs 2018-2019

“Artificial sensory neuron networks excited by optical stimuli”

G. Herranz

Breu descripció dels objectius (Brief description of the objectives):

We study the photoconductive properties of some quantum wells (QWs), whereby the system changes its conductance in a plastic way, retaining memory from its past history, using light as stimulus. We are investigating this phenomenon to replicate in a solid-state system the synaptic plasticity observed in biological neuronal systems.

Breu descripció de la metodologia (Brief description of the methodology):

The candidate will have access to our optical laboratory, which includes high-resolution microscopy using wavelengths in the visible, with accurate control of irradiance and optical stimuli controlled to timescales down the microsecond. The laboratory has deep expertise in magnetotransport and optical characterization of quantum wells. The candidate will benefit also from training in the use of Python-based algorithms to model neural networks.

 

“Nanophotonics: metamaterials and topological structures”

G. Herranz

Breu descripció dels objectius (Brief description of the objectives):

Robust propagation of spatially confined electromagnetic waves is indispensable for the development of on-chip optical communications in photonic circuitry. With this in mind, we investigate approaches based on special topologies in the wavevector space that can enable propagation of helical edge propagation of modes that flow unimpeded by imperfections or back-reflections.

Breu descripció de la metodologia (Brief description of the methodology):

The candidate will have access to our optical laboratory, which includes high-resolution microscopy and angle-resolved spectroscopy in the near-IR-VIS range. In particular, he/she will be acquainted with angle-resolved reflectance/transmission spectroscopy, which can resolve w-k reciprocal space maps from near-IR to violet, with scanning beam sizes down to few microns. This methodology enables the direct visualization photonic/plasmonic states, including edge states. The candidate may also benefit also from training in the use finite-difference time-domain calculations to explore topologically nontrivial photonic crystal lattices.

 

“Neuromorphic computing with ferroelectric materials”

I. Fina.

Neurons in the brain process and store information in a way that radically differs from conventional computers. Although algorithms are being developed to emulate brain functioning, this is only (marginaly) achieved at expense of unacceptable energy consumption. Ferroelectric tunnel devices appear as a potential candidate to replicate neuromorphic functions. The candidate will join a team working on this direction.

To get the responsibility of this cutting edge project, we are looking for candidates finishing a degree on physics, materials science, electrical or related areas, and having excellent academic records. We search for a candidate with strong scientific curiosity and highly motivated to join a very stimulating project of potentially large social impact. Skills in communication, including fluent English, are required.

 

“Study of ferroelectric materials for applications in photovoltaics”

I. Fina

The proposed TFG will carefully analyze the photoelectric response of ferroelectric junction under different conditions using state-of-the-art characterization devices. The student will get wide experience on dielectric and photoelectric characterization, not only required for technological perspectives like the one proposed for his/her TFG, also required for emerging technological areas such as solar cells.

The candidate is expected to be enthusiastic on experimental physics. He/she will have access to our advanced electrical characterization laboratory, which includes optical excitation tools. The candidate will follow an intensive training, so as to ensure a solid understanding of the techniques that enable to understand the interplay between light ant ferroelectricity.

 

“Characterization of antiferromagnetic/ferromagnetic materials for memory applications”

I. Fina

The TFG involves the characterization of antiferromagnetic materials using microscopic proximity techniques. Antiferromagnetic materials can show the ability to store magnetic information at the same time that they can make it invisible. These effects will be those that the TFG will investigate in micro-/nano-patterned device structures.

Enthusiasm about applied and experimental physics, and interest to develop skills on characterization, reporting, communication, etc.

 

“New epitaxial ferroelectric materials in thin film form”    

I. Fina

Ferroelectric materials are already used for a wide range of applications. However, industry defines new challenges for ferroelectric materials that well-known existing ferroelectric materials are not capable to solve. Thus, new ferroelectric materials are needed to be investigated. We propose to characterize novel ferroelectric materials in epitaxial form.

Enthusiasm about applied and experimental physics, and interest to develop skills on characterization, reporting, communication, etc.

 

 

2018

REGULAR ORAL PRESENTATIONS

 

 “Magnetoresistance in Pt/CoFe2O4 bilayers controlled by competing spin accumulation and interfacial chemical reconstructions”

J. Fontcuberta, 

“Static and dynamic control of the orbital occupancy in LaNiO3”

J. Fontcuberta

International Conference on Magnetism (ICM 2018)

S. Francisco, 16 – 20 Julio 2018

 

“Nanoscience and Nanotechnology”

I. Fina

“Information and communication technologies”

I. Fina

Universitat Catalana d’Estiu (UCE)

Prada, 22 – 23 August 2018

 

“Electrons i espins: una parella més eficient si està trencada”

J. Fontcuberta

Nit Jove de la Recerca “Scientific Corner”

CosmoCaixa, 28 setembre 2018

 

“In-situ imaging of electric field-induced ferroelastic domain motion in SrTiO3”

G.Herranz

International Workshop on Oxide Electronics iWOE-2018

Les Diablerets, Switzerland. 1 – 3 October 2018

 

POSTER PRESENTATIONS

 

“Thermionic Field Emission in back-to-back BaTiO3-based Schottky interfaces”

M. Sulzbach

International Workshop on Oxide Electronics iWOE-2018

Les Diablerets, Switzerland. 1 – 3 October 2018

 

 “Misfit controlled electrical conductivity and simultaneous optimization of carrier density and mobility in transparent metallic 3d oxide films”

M. Mirjolet

International Workshop on Oxide Electronics iWOE-2018

Les Diablerets, Switzerland. 1 – 3 October 2018Ç

 

“Imaging Polarization Topologies in BaTiO3/SrTiO3 Superlattices”

S. Estandia

International Workshop on Oxide Electronics iWOE-2018

Les Diablerets, Switzerland. 1 – 3 October 2018

 

 

2018

INVITED CONFERENCES

 

“Multiferroic materials and heterostructures. A view towards applications”

J. Fontcuberta 

MANEP 2018

Les Diablerets Swizerlad, 20-31 August, 2018

 

“Epitaxy of oxides on silicon”

F. Sanchez 

3rd Autumn School on Physics of Advanced Materials, PAMS-3

Heraklion (Greece), 26 September, 2018

 

“Epitaxial stabilization of ferroelectric Hf0.5Zr0.5O2 thin films”

F. Sanchez

12th International Conference on Physics of Advanced Materials, ICPAM-12,

Heraklion (Greece), 23 September, 2018

 

“Lattice instabilities and functional properties of oxide perovskites”

G. Herranz 

EMRS Fall Meeting 2018, Symposium P, Epitaxial oxide films for electronic applications

Warsaw, September 2018. 

 

 

 

 

Josep Fontcuberta imparteix una classe sobre “Nanotecnologies per a les comunicacions i la informació” – en el marc del Curs: “CIÈNCIA I TECNOLOGIA” de la Universitat Catalana d’Estiu (50ena edició, Manresa, 7 de juliol 2018).

2018

Tailoring Lattice Strain and Ferroelectric Polarization of Epitaxial BaTiO3 Thin Films on Si(001),

J. Lyu, I. Fina, R. Solanas, J. Fontcuberta, and F. Sánchez

Scientific Reports 8, 495 (2018)

 

Magnetoresistance in Hybrid Pt/CoFe2O4 Bilayers Controlled by Competing Spin Accumulation and Interfacial Chemical Reconstruction

H. B. Vasili, M. Gamino, J. Gàzquez, F. Sánchez, M. Valvidares, P. Gargiani, E. Pellegrin, and J. Fontcuberta

ACS Appl. Mater. Interfaces, 10, 12031−12041 (2018)

 

Generation and annihilation time of magnetic droplet solitons

J. Hang, C. Hahn, N. Statuto, F. Macià, A. D. Kent

Scientific Reports 8, 6847 (2018)

 

Low-Temperature Dielectric Anisotropy Driven by an Antiferroelectric Mode in SrTiO3
B. Casals, A. Schiaffino, A. Casiraghi, S. J. Hämäläinen, D. López González, S. van Dijken, M. Stengel, and G. Herranz

Phys. Rev. Lett. 120, 217601 (2018)

 

Generation and stability of dynamical skyrmions and droplet solitons

N. Statuto, J. M. Hernàndez , A. D Kent and F. Macià

Nanotechnology, 29 325302 (2018)

 

Control of the Polarization of Ferroelectric Capacitors by the Concurrent Action of Light and Adsorbates

F. Liu, I. Fina, G. Sauthier, F. Sánchez , A. M. Rappe, and J. Fontcuberta

ACS Appl. Mater. Interfaces, 10, 23968−23975 (2018)

 

Control of polar orientation and lattice strain in epitaxial BaTiO3 films on silicon

J. Lyu, S. Estandía, J. Gazquez, M. F. Chisholm, I. Fina, N. Dix, J. Fontcuberta, and F. Sánchez

ACS Applied Materials & Interfaces, 10, 25529−25535 (2018)

 

Robust ferroelectricity in epitaxial Hf1/2Zr1/2O2 thin films

J. Lyu, I. Fina, R. Solanas, J. Fontcuberta, and F. Sánchez

Appl. Phys. Lett. 113, 082902 (2018)

 

Selectable texture in epitaxial ferroelectric BaTiO3 films integrated with silicon

J. Lyu, I. Fina, R. Solanas, J. Fontcuberta and F. Sanchez

CrystEngComm (2018)

 

Subnanosecond magnetization dynamics driven by strain waves

M. Foerster, L. Aballe, J. Manel Hernàndez, and F. Macià

MRS BULLETIN , volume 43, (2018)

 

Giant topological Hall effect in correlated oxide thin films

L Vistoli, W Wang, A Sander, Q Zhu, B Casals, R Cichelero, A Barthélémy, S Fusil, G Herranz, S Valencia, R Abrudan, E Weschke, K Nakazawa, H Kohno, J Santamaria, W Wu, V Garcia & M Bibes

Nature Physics (2018)

 

Asymmetric Resistive Switching Dynamics in BaTiO3 Tunnel Junctions

M Qian, I Fina, F Sánchez, and J Fontcuberta

Adv. Electron. Mater.  1800407 (2018)

 

 

We announce the forthcoming COST TO-BE Spring Meeting 2018 to be organized by the Institut de Ciència de Materials de Barcelona and held in the Eden Roc Hotel at Sant Feliu de Guíxols, north of Barcelona, 12th–14th March 2018

The meeting is going to be the last in a series of meetings organized by the COST Action TO-BE (for Towards Oxide-Based Electronics). It aims to network researchers working in the field of the science and technology of transition-metal oxides and, to help them sharing their expertise, defining future strategies, and pursuing jointly funding opportunities.

 

Participation at the meeting is open to scientists, both from the public research sector and from the private sector. It is NOT restricted to the members of the Action. Non-EU participants are also very welcome to attend. One of the actions undertaken by TO-BE is to promote building a Roadmap “Towards Oxide Electronics” that we expect releasing early 2018. The forthcoming TO-BE Spring Meeting would be the opportunity for contributors to present their views on different aspects of oxide electronics.

 

The meeting will feature invited presentations delivered by contributors to the Roadmap, as well as flash and poster contributions.

Submission of abstracts will be open on 1st December 2017. Please submit your work by 1st January 2018.

 

For further information, please visit the website:

 

https://congresses.icmab.es/tobe2018/

 

Thanks to the support of the COST TO-BE Action, participation is free of charge. However, registration is necessary. See:

 

https://congresses.icmab.es/tobe2018/

 

We sincerely hope that you will be able to attend the COST TO-BE Spring Meeting 2018 and we look forward to seeing you in March 2018

 

Finally, just after the COST TO-BE Spring Meeting 2018, the COST organized school on “Oxide-based Electronic Technologies” (15th-17th March) will be held at the same place (Hotel Eden Roc, Sant Feliu de Guíxols). Information will be posted soon.

Sincerely yours,

 

Mariona Coll and Josep Fontcuberta

 

Oxides flight high. Oxide-based non-volatile memories, fabricated and integrated by our colleague Pablo Levy and his team in CNEA (Buenos Aires), were successfully launched to space on 2th.02.2018 and are now orbiting the Earth. Congratulations!

Oxides flight high. Oxide-based non-volatile memories, fabricated and integrated by our colleague Pablo Levy and his team in CNEA (Buenos Aires), were successfully launched to space on 2th-02-2018 and are now orbiting the Earth. Congratulations ! 

 

 

http://www.conicet.gov.ar/labosat-tecnologia-argentina-en-el-espacio/

 

 

Agustin Lopez, PhD student from Buenos Aires, is going to stay in our group for one month

Hi! I’m Agustin, and I’m a PhD student from Buenos Aires, Argentina. This is my first time in Barcelona. I’m going to be here for one month and I will learn how to characterize ferroelectric thin films with the group of Josep Fontcuberta. In my free time I like playing videogames, reading a lot of books and spending time with my girlfriend and my friends.

February, 2018.

Early-Stage Research Fellow, PhD Position (DEADLINE February 1st 2018)

 

 

INPhINIT, ”la Caixa” Doctoral Fellowship Programme is  devoted to attract international Early-Stage Researchers to top Spanish research centres, offering an attractive and competitive environment for excellent research.

 

INPhINIT offers a 3-year employment contract, including trasnational, intersectoral and interdisciplinary mobility opportunities, and attend a full range of complementary training courses and workshops.

 

Within this Program, we are looking for excellent candidates to join the Multifunctional Thin Films and Complex Oxides lab to work on these research projects:

 

 

               1.- Photo-writing in ferroelectric green memory devices
               2.- Pure spin currents: a toggle for energy-efficient control of magnetic memories
               3.- Breaking symmetry and conventional wisdoms for efficient photovoltaics
               4.- Low-Loss Multifunctional Plasmonic Metamaterials
               5.- Dynamical modulation of electron spins with microwaves
               6.- Bioinspired Magnetic Nanodevices
               7.- Ferroelectric nano-oscillators for pattern recognition and social networks

 

Open call for the INPhINIT “La Caixa” Doctoral Fellowship Programme – Opportunities at ICMAB-CSIC

 

 

 

 

Manuel Bibes, former PhD student in our team has been awarded with the Descartes-Huygens Prize 2017

Manuel Bibes has beeb awarded with the Descartes-Huygens Prize 2017 as announced by the Royal Netherlands Academy of Arts and Sciences (KNAW), the Embassy of France in the Netherlands and the Académie des Sciences, for their outstanding research  research in nanoscience and their contribution to Franco-Dutch relations.  Congratulations Manu!

 

http://www.academie-sciences.fr/fr/Prix-internationaux/prix-descartes-huygens.html

 

 

 

Saúl Estandía will be working on his PhD under supervision of Florencio Sanchez for the next years.

 

During this time I will mainly focus on the preparation (by PLD) of samples made of the ferroelectric oxide BaTiO3 and further characterization (by STEM microscopy) to understand the polarization domains’ dynamics, all that under the supervision of Florencio Sanchez and Jaume Gazquez. As background I hold both a degree in physics and a master in photonics.
I enjoy practicing a wide variety of activities such as capoeira and martial arts, hiking, reading, learning languages…
If you would like to know more don’t hesitate to address me.
Looking forward to meet you all!

 

 

TODAY 27 Nov. 12 pm: ICMAB Periodical Lectures “Electric-field control of magnetism in multiferroic heterostructures” By Sebastiaan van Dijken, NanoSpin, Dep. of Applied Physics, Aalto University School of Science, Finland. Sala d’Actes Carles Miravitlles

Spintronic devices currently rely on magnetic switching or controlled motion of magnetic domain walls by an external magnetic field or electric current. Achieving the same degree of magnetic controllability using an electric field has potential advantages including low power consumption. Here, an approach to electrically control local magnetic properties will be discussed [1-5]. The method is based on recurrent strain transfer from regular ferroelastic stripe domains in a ferroelectric BaTiO3 substrate to magnetostrictive films (e.g. CoFe, CoFeB, and Fe). Dominance of the strain-induced magnetoelastic anisotropy in these heterostructures causes full imprinting of ferroelectric domain patterns into ferromagnetic films and strong pinning of magnetic domain walls onto ferroelectric boundaries [6,7]. Optical polarization microscopy measurements of the ferromagnetic and ferroelectric domain structures indicate that domain correlations and strong inter-ferroic domain wall pinning are maintained in an applied electric field. As a result, deterministic electric-field control over the formation and erasure of ferromagnetic domains [1-3] and reversible motion of magnetic domain walls [4,5] are obtained. In addition, regular modulations of magnetic anisotropy in strain-coupled multiferroic heterostructures provide a versatile platform for the excitation and manipulation of spin waves [8,9]. These findings open up new routes towards electric-field driven spintronics and magnonics.

Ariadna Soro, student of a double degree in Physics and Mathematics at UAB. She is working on her final degree project at ICMAB.

 

 

 

My name is Ariadna Soro and I’m currently studying a double degree in Physics and Mathematics at Universitat Autònoma de Barcelona (UAB). Here at ICMAB, I’ll be working on my final degree project with the help of the Multifunctional Oxides and Complex Structures research group. Besides from studying, I also enjoy dancing, skiing and playing the guitar.

I’m really looking forward to this opportunity and I’m hoping to learn a lot from everyone here!

 

 

 

Early-Stage Research Fellow, Institute for Materials Science of Barcelona – PhD Position

 

INPhINIT, ”la Caixa” Doctoral Fellowship Programme is  devoted to attract international Early-Stage Researchers to top Spanish research centres, offering an attractive and competitive environment for excellent research.

INPhINIT offers a 3-year employment contract, including trasnational, intersectoral and interdisciplinary mobility opportunities, and attend a full range of complementary training courses and workshops.

Within this Program, we are looking for excellent candidates to join the Multifunctional Thin Films and Complex Oxides lab to work on these research projects:

 

1.- Photo-writing in ferroelectric green memory devices
2.- Pure spin currents: a toggle for energy-efficient control of magnetic memories
3.- Breaking symmetry and conventional wisdoms for efficient photovoltaics
4.- Low-Loss Multifunctional Plasmonic Metamaterials
5.- Dynamical modulation of electron spins with microwaves
6- Bioinspired Magnetic Nanodevices
7.- Ferroelectric nano-oscillators for pattern recognition and social networks

 

Open call for the INPhINIT “La Caixa” Doctoral Fellowship Programme – Opportunities at ICMAB-CSIC

 

DEADLINE FOR APPLICATION:  FEBRUARY 1ST, 2018

 

 

Mikko Kataja, from Aalto University, joints our team under supervision of Dr. Gervasi Herranz

 

 

Hello everyone! I’m Mikko Kataja and I come from Finland, where I did my PhD in Aalto University on magneto-optically active plasmonic nanoparticles. I am now in ICMAB in Multifunctional Oxides and Complex Structures research group to explore the possibilities that active oxide materials, such as ferromagnetic and ferroelectric oxides, offer in the field of optics, especially for active nanoscale optical devices. In my freetime, I enjoy cooking and board games.

Mikko Kataja.

 

 

Hello everyone! I’m Mikko Kataja and I come from Finland, where I did my PhD in Aalto University on magneto-optically active plasmonic nanoparticles. I am now in ICMAB in Multifunctional Oxides and Complex Structures research group to explore the possibilities that active oxide materials, such as ferromagnetic and ferroelectric oxides, offer in the field of optics, especially for active nanoscale optical devices. In my freetime, I enjoy cooking and board games.

 

 

2017

PLENARY & SEMIPLENARY

 

“Ferromagnetic and Ferroelectric. A win-win couple”

J. Fontcuberta

Moscow International Symposium on Magnetism (MISM 2017)

Moscow State University, 2 – 8 July 2017

 

“Electroresistance at ferroelectric junctions. Polarization charge and ions at play”

J. Fontcuberta

2th International Workshop on New Trends on Physics of Ferroics. NTPF 2017

6-8 July 2017, San Petersburg

 

“Opportunities of multifunctional materials in energy-efficient oxide electronics”

G. Herranz

Workshop Multifunctional oxides: Sinergy between fundamental science and novel technologies

13-15 December 2017, Buenos Aires, Argentina

 

 

INVITED CONFERENCES

 

Monolithic integration of room-temperature multifunctional BaTiO3-CoFe2O4 epitaxial heterostructures on Si(001)

M. Scigaj, N. Dix, J. Gázquez, M. Varela, I. Fina, N. Domingo, G. Herranz, V. Skumryev, J. Fontcuberta, F. Sánchez

Electronic Materials and Applications 17 (The American Ceramic Society)

Orlando (USA), January 18, 2017

 

Field-effect modulation of  La0,5Sr0.5MnO3 slave layers in ferroelectric tunel junctions

J. Fontcuberta

York-Tohoku-Kaiserslautern 2nd Research Symposium on “New Concept Spintronics Devices” Session 2: Electrically Controlled Magnetisation.

Departments of Physics and Electronics, University of York (UK) 21-23 June 2017.

 

Tuning lattice strain and electrical properties of epitaxial ferroelectric BaTiO3 films on Si(001)

J. Lyu, I. Fina, R. Solanas, J. Fontcuberta, F. Sanchez

The 9th International Conference on Advanced Materials, ROCAM 2017

Bucarest (Rumanía), July 12, 2017

 

Spin diffusion and proximity effects in metal/ferromagnetic-insulator bilayer

J. Fontcuberta

Magnetic Coupling in Nanostructured Materials (MaCMat-2017)

Roma, 23 – 24 October 2017

 

“In-situ imaging of electric field-induced ferroelastic domain motion in SrTiO3 “

G. Herranz

Center for Correlated Electron Systems IBS (Prof. Tae Won Noh’s Group)

Seoul, South Korea, 4 December 2017.

 

”Structural distortions in perovskite oxide heterostructures: a tale of two modes”

G. Herranz

10th International conference on Advanced Materials and Devices

Jeju Island, Korea, 5-8 December 2017.

 

“Ferromagnetic and Ferroelectric. A wining couple”

J. Fontcuberta

The International Symposium on Integrated Functionalities (ISIF2017)

Delhi, 10-13th December.

 

 

 

Pep Fontcuberta delivers an Invited lecture at “Magnetic Coupling in Naostructured Materials” to held at CNR premises in Rome next 23-24 October.

Pep Fontcuberta delivers an Invited lecture at “Magnetic Coupling in Naostructured Materials” entitled “Spin diffusion and proximity effects in metal/ferromagnetic-insulator bilayer”.

Here you can find the link to the conference website: https://sites.google.com/view/macmat2017/home

Milena Sulzbach

 

 

My name is Milena Sulzbach and I am from Brasil. There, I studied physics and acquired my Bachelor´s and Master´s degree from Universidade Federal do Rio Grande do Sul (UFRGS). Now, I have started my PhD in ICMAB under the supervision of Prof. Fontcuberta in the Multifunctional Oxides and Complex Structures group. In my free time, I enjoy walking, listen music, reading and travelling to new places with my friends.

Research projects offered as TFG in Physics (Degree in Physics at UAB) 2017

1.- Photoresponse of non-centrosymmetric materials

Supervisors: Josep Fontcuberta & Ignasi Fina

 

Brief description of the objectives

Non-centrosymmetric materials have unique properties that could be of the highest interest for efficient photovoltaic energy conversion. The aim of the proposed TFG is that the student get used with the concepts involved in the photoresponse of non-centro-symmetric materials and the methods to study and understand it.

 

Brief description of the methodology

The project will include the electric characterization of ferroelectric and other polar materials (mainly thin films only few tens of nanometer thick) and their photoresponse. The samples will be illuminated with light of various wavelengths and polarization and the photoresponse will be determined. The candidate will participate to the weekly meetings of our research group, learning how to present and discus experimental results.

 

2.- Using light to study new materials for electronics

Supervisors: Gervasi Herranz

 

Brief description of the objectives

In our lab we are investigating new materials for applications in information technologies. One of our research lines aims at modulating the information stored in magnetic moments by the application of electric field pulses that, in turn, generate strain waves that stretch/squeeze locally the ferromagnet and change its magnetic state. We study these phenomena optically: the student will be trained in optical imaging and spectroscopy.

 

Brief description of the methodology

The candidate will have access to our advanced optical laboratory, which includes optical spectroscopy and high-resolution imaging tools. The candidate will follow an intensive training, so as to ensure a solid understanding of the techniques. The student will be acquainted with state-of-the art techniques that allow real-space mapping of optical responses with diffraction limitation That allows the visualization of features below the micron down to just a few of hundreds of nanometers, enabling direct imaging of small devices and high sensitivity to magnetic fields. The optical lab at ICMAB is suited to visualize plasmon propagation in real space as well as in reciprocal space, i.e., plasmonic and photonic band dispersions can be obtained from throughout near-IR to near-UV frequencies.

 

 

 

ICMAB PhD Programme Severo Ochoa fellowships. DEADLINE FOR APPLICATION 3rd OCTOBER 2017

 

ICMAB PhD Programme Severo Ochoa fellowships

Within the program,  PhD fellowships are offered by the ICMAB-CSIC for the academic year 2017-2018

 

A) Energy-efficient control of magnetic memories by spin currents.

Ferran Macià 

 

B) Plasmonics in Multifunctional Nanophotonic Circuits.

Gervasi Herranz

 

http://icmab.es/icmab-phd-programme-severo-ochoa-fellowships

 

DEADLINE FOR APPLICATION:  3rd OCTOBER, 2017

 

 

 

 

Fellowships to conduct a PhD within the DOC-FAM COFUND doctoral programme coordinated by ICMAB

  
Available research projects 1st Call (2017)
Deadline 30th November 2017
 
      –  Dynamic modulation of plasmons in multifunctional nanophotonic circuits (Dr. Gervasi Herranz)
 
      –  Dynamical modulation of electron spins with microwaves (Dr. Gervasi Herranz)
 
      –  Polar materials for efficient light energy harvesting (Prof. Josep Fontcuberta)
 
 
 
 

Direct imaging of delayed magneto-dynamic modes induced by surface acoustic waves

 

 

 

M Foerster, F Macià, N Statuto, S Finizio, A Hernández-Mínguez, S Lendínez, P V Santos, J. Fontcuberta, J M Hernàndez, M Kläui & L Aballe

 

Nature Communications, 8, 4017, (2017)

 

 

The magnetoelastic effect—the change of magnetic properties caused by the elastic deformation of a magnetic material—has been proposed as an alternative approach to magnetic fields for the low-power control of magnetization states of nanoelements since it avoids charge currents, which entail ohmic losses. Here, we have studied the effect of dynamic strain accompanying a surface acoustic wave on magnetic nanostructures in thermal equilibrium. We have developed an experimental technique based on stroboscopic X-ray microscopy that provides a pathway to the quantitative study of strain waves and magnetization at the nanoscale. We have simultaneously imaged the evolution of both strain and magnetization dynamics of nanostructures at the picosecond time scale and found that magnetization modes have a delayed response to the strain modes, adjustable by the magnetic domain configuration

“Internships and Collaboration Grants”

 

CALL CLOSED

 

http://icmab.es/becas-colaboracion

 

Engineering brain-like neurons and synapse with ferroelectrics

Supervisor: Josep Fontcuberta

In principle ferroelectric memories can be built and designed to mimic some learning aspects on neuronal networks. The candidate will learn about how to fabricate ferroelectric memories and to test them with the vision to determine their potential performance The student will be integrated to the MULFOX group at ICMAB (http://www.icmab.es/mulfox/)

 

Ferroelectric materials for photovoltaics

Supervisor: Josep Fontcuberta

Ferroelectric materials are being explored as new candidates for solar energy harvesting. The candidate will joint a team of people working on this subject. He/she and learn why and how ferroelectric materials can be useful and the appropriate techniques for growing, tailoring the band gap for enlarged photon absorption and testing. The student will be integrated to the MULFOX group at ICMAB (http://www.icmab.es/mulfox/).

 

Transparent metals for flat panel displays

Supervisor: Josep Fontcuberta

Displays are the most costly part of current tablets and smart telephones and some currently employed elements are expensive and rare. Therefore alternatives are required. The candidate will join a running project aiming to explore radically new routes. The student will be integrated to the MULFOX group at ICMAB (http://www.icmab.es/mulfox/).

 

New Materials for robust memories

Supervisor: Ignasi Fina

The project involves the growing of the antiferromagnetic material in thin film form on top of inexpensive substrates. The main body of the project focuses on basic characterization using a wide range of characterization techniques: structural, morphological, compositional, magnetometric and transport. Importantly, these techniques can be extrapolated to the characterization of any magnetic material. The student will also lead the functional tests of the material for being used as a memory element using transport or optical (by the use of the synchrotron light at ALBA) techniques.

 

Using light to study new materials for electronics

Supervisor: Gervasi Herranz

In our lab we are investigating new materials for applications in information technologies. One of our research lines aims at modulating the information stored in magnetic moments by the application of electric field pulses that, in turn, generate strain waves that stretch/squeeze locally the ferromagnet and change its magnetic state. We study these phenomena optically: the student will be trained in optical imaging and spectroscopy. Also, the candidate will have the opportunity to learn how devices can be designed to the ca. 100 nm scale by electron-beam lithography.

 

Spin currents in nanostructures

Supervisor: Ferran Macià

Spin currents may complement digital semiconductor technologies and offer new possibilities for memory capacity and computational performance of particular importance as semiconductor devices miniaturization approaches fundamental limits. This research project aims at studying the possibility of using spin currents (with no electrical charge) in nanostructured materials as information carriers. We will excite dynamical magnetic modes that can pump spins into a neighboring material. The project includes nanofabrication and measurements of microwaves in the fabricated structures.

March for Science: On 22ns April we joint it.

 

March for Science: On 22ns April we joint it.

 

https://www.marchforscience.com/

 

http://scientistsdatingforum.org/manifesto-march-for-science-barcelona/

 

 

 

El proper dia 22 d’abril, Dia de la Terra, es celebrarà la Marxa per la Ciència, una marxa de recolzament a la ciència, en més de 400 ciutats de tot el món.

La iniciativa va néixer als Estats Units com a resposta a la profunda preocupació de científics i ciutadans per la creixent onada de polítiques anticientífiques i l’erosió de la imatge social de la ciència. Posteriorment, ciutats de tot el món s’han afegit al moviment; a Espanya: Barcelona, Madrid, Sevilla i Girona. 

Els promotors de la Marxa per la Ciència fem una crida a la ciutadania a comprometre’s per destacar i compartir els valors de la ciència. Volem treballar per fer de la pràctica de la investigació, el desenvolupament i la innovació una activitat oberta i inclusiva, perquè la ciència contribueixi al millor i major benestar de la nostra societat i per assegurar-nos que les proves sòlides, obtingudes a través del mètode científic, siguin la base del desenvolupament de les accions polítiques.

 

March for Science-Barcelona #M4ScBCN 

Es celebrarà a la plaça interior del Parc de Recerca Biomèdica de Barcelona (PRBB), el dissabte 22 d’abril de 2017 de 12h a 16h.
La Marxa per la Ciència Barcelona està sent organitzada localment a iniciativa del Scientists Dating Forum amb la col·laboració de múltiples científics i ciutadans tant a nivell individual com d’associacions.
La Marxa per la Ciència Barcelona és un esdeveniment dels científics de Barcelona per a tothom!
El comitè organitzador de la Marxa per la Ciència està obert a tothom i necessita la teva ajuda. Anima’t a col·laborar!
 

Programa preliminar:

Declaració “Marxa per la Ciència Barcelona”
Taula rodona sobre ciència i política. 
Espectacle de ciència divulgativa
Activitat relacionada amb el Dia de la Terra
Punts de menjar i beure, i música en directe