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TAC Light Sources (SR&FEL) Internatıonal User’s Meeting (LSUM 2013) October 5-7, 2013. PROPOSED EXPERIMENTAL STATIONS OF TARLA IRFEL FACILITY AND R&D POTENTIAL Pervin ARIKAN Gazi University- Ankara. Outline. List of Staff Planning of experimental stations Techniques and application fields

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tac light sources sr fel internat onal user s meeting lsum 2013 october 5 7 2013

TAC Light Sources (SR&FEL) Internatıonal User’s Meeting (LSUM 2013)October 5-7, 2013

PROPOSED EXPERIMENTAL STATIONS OF TARLA IRFEL FACILITY AND R&D POTENTIAL

Pervin ARIKAN

Gazi University- Ankara

outline

Outline

  • List of Staff
  • Planning of experimental stations
  • Techniques and application fields
  • Working groups
  • Infrastructure of Labs.
  • User potential
  • CALIPSO and ESUO
  • HORIZON 2020
  • Future plan

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Pervin ARIKAN | Gazi University

tarla ir fel laboratories

TARLA IR-FEL Laboratories

  • are charged with the responsibility to supply state-of-the-art radiation in broad region to a diverse user community.
  • Scientific opportunities in physics,chemistry,

biology and medicine are beinginvestigated to foster new research areas in Turkey and region

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Pervin ARIKAN | Gazi University

tarla ir fel exp stations and user potential working group

TARLA-IR FEL Exp.Stations and User Potential - Working Group

  • Dr. Pervin Arıkan ( Gazi University) Coordinator
  • Dr.İlhan Tapan (Uludağ University ) ( photon diagnostics )
  • Dr.Atilla Aydın ( Bilkent University ) ( IR Spect.material charact. )
  • Dr.Ayşe Hiçsönmez ( Ankara University) ( medicial appl. )
  • Dr.Feride Severcan ( METU) (bio-micro Spectroscopy )
  • Dr.Hakan Altan ( METU ) ( ultrafast photonics)
  • Dr.Okan Esentürk ( METU) ( ultrafast photonics)
  • Dr. Ömer İlday ( Bilkent University ) ( material processing )
  • Dr.Ergün Kasap ( Gazi University) ( optical beamline transport )
  • Müge Tural Gündoğan ( Ph.D Student - Ankara University) (M.Sc. IRFEL Labs.)
  • Ayşegül Uşun ( M.Sc. – Gazi University) ( pump-probe)
  • Elif Tatoğlu ( M.Sc. - Gazi University) ( IR Spect. )
  • Selin Erdoğan ( M.Sc. - Gazi University) ( SFG)
  • Emre Erbay ( Ph.D student- ÖİB University) ( M.Sc. optical beamline transport )
  • Begüm Tekiner ( M.Sc. - Ankara University) (optical beamline transport )
  • Kamile Tekfidan (M.Sc. - Gazi University) (optical beamline transport )
  • Ersin Çiçek (M.Sc. - Gazi University) ( photon diagnostics )
  • İdil Arslan ( M.Sc - Ankara University) ) ( photon diagnostics )

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Pervin ARIKAN | Gazi University

schematic view of tac ir fel brems facility

Schematic View of TAC IR-FEL & Brems. Facility

Cooling & Generator Rooms

Analysis, Control, Atelier Rooms

ExperimentHalls

Accelerator and FEL Production Area

Accelerator and FEL Production Area

Klystron, Electronics Room

Bremsstrahlung Experiment Area

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Pervin ARIKAN | Gazi University

slide6

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

slide7

The obtained laser ( 3 -250 μm) will be delivered to experimental stations ( MIR and FIR region )

  • 1. Photon diagnostıcs lab.

2. Infrared spectroscopy laboratory ( IR Lab.) material characterization

3.Pump-probe /sum frequncy generation laboratory( PPT/SFG)

  • Other four laboratories will be prioritized with respect to the needs and

requirements of the expected proposals of the researchers in the areas

outlines previously.

  • It is imperative that the photon beam is well prepared for transport and well diagnosed before experiments can be conducted these laboratories

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Pervin ARIKAN | Gazi University

irfel experimental stations of tarla facility

IRFEL Experimental Stations of TARLA Facility

Coordinator :Dr.Pervin Arıkan ( Gazi Univ.)

  • Photon Diagnostics ( Lab 1)

Dr. İlhan Tapan (Uludağ Univ.)

  • Ultrafast Photonics Applications ( Lab 2)

Dr.Okan Esentürk and Dr. Hakan Altan ( METU)

  • IR Spect. (Material Charact.) ( Lab 3)

Dr. Atilla Aydınlı (Bilkent Univ. )

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Pervin ARIKAN | Gazi University

main application field of ir fel

Main application field of IR FEL

  • PhotonScience
  • MaterialScience
  • Semiconductors
  • Biotechnologicalandmedicalresearch
  • Non-linearOptics
  • Nanotechnology
  • Photo-Chemistry

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

experimental techniques

Experimental techniques

1 - Sum Frequency Generation

2 - Photon Echo Experiment

3 - Photoacustic Spectroscopy

4 - Pump-Probe Techniques

5 - IR-MALDI (IR matrix assisted laser desorption/ionization )

6 - IR-MAPLE ( IR matrix assisted pulsed laser evaporation )

7 - IR-REMPI (IR resonance enhanced multiphoton ionization)

8 - Near Field Microscopy

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

some n eeds of the industrial and scientific community in turkey

Some Needs of the Industrial and Scientific Community in Turkey

  • Characterization of electrical properties of solar cells
  • Characterization of the crystal or amorphous materials used in the production of thin-film solar cells
  • Understanding the effect of thermal stress on material longevity
  • Measurement on deposited films or coatings using ultrafast techniques
  • Dynamical characterization of detector response in the infrared and visible regions
  • Characterization and calibration of eye-safe CCD and/or CMOS detectors
  • Characterization of power and output characteristics of Quantum Cascade Lasers (QCL)
  • Time-domain characterization of point-like bolometer detectors or micro-bolometer arrays
  • Understanding working principles of dynamical catalysis mechanisms in various reactions
  • Characterizing polymer surfaces that can be utilized in biosensors, batteries, and other electronic devices.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

photon diagnostics lab

Photon Diagnostics Lab.

* Ersin Çiçek, SEL için Foton Diyagnostiği’nin Teknik tasarımı, 08.09.2013, UPHUK-V

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

irfel material characterization lab layout

IRFEL material characterization (Lab layout )

u

Soğutma suyu

N2

Raman

kryostat

FTIR

NSOM

fs lazer

Vak

Veri toplama

Y.

Parça,sarf, stok

Güç

Örnek hazırlama

Basınçlı hava

Vakum

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

time resolved v ibrational spe ctroscopy of c hemical r eactions

Time Resolved Vibrational Spectroscopy of Chemical Reactions

  • One narrowband ultrafast IR laser pulse excites vibrational modes in a molecule and is followed by a second broadband infrared pulse, which gives two independent frequency axes and allows the collection of 2D-IR spectra.
  • Spectra provide direct information on vibrational anharmonicities, energy transfer processes, and molecular structure.

http://www.cchem.berkeley.edu/cbhgrp/

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

spectroscopy of the solid state

Spectroscopy of the Solid State

  • Carrier dynamics:
  • Quantum wells, superlattices, and quantum dots (e.g.
  • inter- and intra-subband/miniband relaxation, Bloch
  • oscillations)
  • Infrared and THz properties:
  • Electricallydrivenquantum structures (Bloch oscillators
  • and quantumcascade lasers)
  • Resonant coherent effects:
  • High-intensity laser pulses closely resonant with the
  • intersubband energy can induce coherent phenomena
  • such as dressed states and Rabi oscillations
  • Electrondynamics:
  • Ultrashort IR pulses with controlled phases.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

ultrafast photonics applications laboratory

3.5m

SFG

~6m

Pump/

Probe

Ultrafast Photonics Applications Laboratory

Lab Layout

>1mJ, 1kHz synchronized,

sub-100fs ultrafast amplified

laser source at 800nm center

wavelength

mJ pulse energies for a

wavelength range of

200-11000nm

Main Experiments will be centered around

pump/probe measurements and sum-frequency

generation measurements. All experiments are

planned to start pre-FEL beam

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

pump probe method

Pump-Probe Method

  • Pump-probe method enables to follow in real time vibrational motions coupled to electronic transitions. The sample is excited by one pulse train (pump) and the changes it induces in the sample are probed by the second pulse train (probe), which is suitably delayed with respect to the pump. Changes in the order of picosecond can be observed with this method.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

sum frequency generation sfg spectroscopy

Sum Frequency Generation (SFG) Spectroscopy

Sum Frequency Generation (SFG) is a nonlinear optical technique used to study the details of molecular structure and dynamics at surfaces and interfaces. SFG has advantages in its ability to be monolayer surface sensitive, ability to be performed in situ (for example aqueous surfaces and in gases), and not causing much damage to the sample surface.

This spectroscopy method utilizes SFG, where two light beams mix at a surface and generate an output beam with a frequency equal to the sum of the two input frequencies. From the experiment setup and the output beam, one can deduce the composition, orientation distributions, and some structural information of molecules on a surface.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

planned services in the labs

Planned services in the Labs

  • Air-condition
  • UPS
  • Liquid helium
  • Water free nitrogen
  • Oil free air pressure
  • Cooling water
  • Liquid nitrogen
  • Temperature control
  • Dust ( particle) control
  • Humidity control
  • 220-400 Voltage
  • 40 kW per room
  • LAN

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

user potential

USER POTENTIAL

We identified areas of interest and contacted spesific researchers since 2009 .

Few areas of interest

  • Conventional Laser ve IR FEL
  • Non-linear optics
  • Pump-probe Techniques
  • Sum frequency generation
  • FTIR , Raman Spect.
  • Optics and signal process
  • Terahertz Spect.
  • Nanotechnology
  • Material Science
  • Semi-conductors
  • IR Imaging
  • Laser ablation
  • Nanomedicine

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

first user meeting 2009

First User Meeting 2009

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

second user meeting 2010

Second User Meeting -2010

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

main laser and optics research center in universities

Main laser and optics research center in universities

  • Kocaeli University (LATARUM) İzmit
  • METU (Material science and THz lab.) Ankara
  • Ankara University(Nonlinear optics Lab.) Ankara
  • Bilkent Univ.( Advanced technology research center )Ankara
  • UNAM (National nanotechnology research center)Ankara
  • Koç University(LASER Lab.)İstanbul
  • UME (Optical Lab.) İzmit
  • SABANCI University(Optical Lab.)İstanbul
  • İzmir Advanced Technology Institute ( chemistry) Ankara

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

material characterization by ir spect users in universities

Material Characterization by IR Spect. USERS in Universities

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

international relations

INTERNATIONAL RELATIONS

  • EU SEVENTH FRAMEWORK PROGRAMME
  • Combination of Collaborative Projects

And Coordination and Support Actions for Integrating

Activities

  • INFRA-2012-1-1.23:Synchrotron radiation sources and Free Electron Lasers

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

eu fp 7 international relations

EU-FP-7 INTERNATIONAL RELATIONS

Title : Coordinated Access to Light sources to Promote Standards

and Optimization

Budget : 7.5 M Euro

Duration : 36 months ( June 2012 – May 2015)

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

project management of calipso

Project management of CALIPSO

  • Dr. Michele Bertolo,
  • Head of Sponsored Research Office at Sincrotrone Trieste S.C.p.A.(Elettra)

ITALY

  • Dr. Cecilia Blasetti ,(Managing Team ) Elettra
  • “wayforlight”portal
  • http://www.wayforlight.eu
  • www.esuo.org

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

objectives of calipso

Objectives of CALIPSO

** CALIPSO coordinates the European synchrotrons and FELs towards a fully integrated network.

** The consortium is characterized by common objectives,harmonized decisions, strong communication,transnational open access based on excellence and joint development of new

instruments.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

the 20 consortium members of calipso

The 20 consortium members of CALIPSO

  • ALBA
  • AU(ISA)
  • CLIO(CNRS)
  • DESY
  • Diamond
  • Elettra
  • EMBL
  • ESRF
  • BESSY(HZB)
  • FELBE(HZDR)
  • ANKA(KIT)
  • INFN
  • MAXIV
  • PSI-SLS
  • FELIX(RU)
  • SOLARIS
  • SOLEIL
  • STFC
  • TAC
  • XFEL

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

members of calipso

Members of CALIPSO

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

calipso activities

CALIPSO ACTIVITIES

**Networking Activities/NAs

Wayforlight (ESUO) and HERCULE School

**Transnational Access Activities/TAAs

14 Accelerator Facility-Users Project

** Joint Research Activities/JRAs

  • FELSEED , HIZPAD2 , NanoFOX+

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

european accl users organization calipso esuo

European Accl. Users Organization CALIPSO-ESUO

  • TAC-TARLA is member of ESUO (CALIPSO - TAAs )
  • 14 Accelerator Facility-Users Project

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

horizon 2020

HORIZON 2020

  • Dr. Josef FELDHAUS

Head of FLASH operation group – DESY Photon Science

  • Chair of the Collaboration of European FEL and SPS Facilities (SPS=accelerator based short-pulse sources).
  • With the presentproposal we suggest to consider the emerging and fast developing field of free electron lasers as a separate topic for the EU programHorizon 2020.(Horizon 2020, the EU\'s Research & Innovation funding programme for 2014-2020 )

* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *

  • Since CALIPSO also includes several IR FELs and since there will be a separate FEL topic for an I3 under HORIZON2020
  • We would like to invite your institute also to join our activities and become member of the Collaboration. The operating facilities CLIO, FELBE and FELIX have already indicated their interest and are ready to sign the MoU.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

road map

ROAD MAP

  • As a first step , planning of 3 experimental stations
  • TDR and construction
  • Practical experience of users (CALIPSO)
  • Teaching and training of junior staff
  • Determine user profile of Turkey
  • CALIPSO
  • ESUO
  • HORIZON 2020
  • LSUM2013 ( 4-6 October 2013 , HTE-Ankara Univ.)
  • Future Plan

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

future planning

FUTURE PLANNING

  • Aim of Extended Project:
  • To get additional budget and time to complete the TARLA
  • facility including 5 (IR FEL) and 1 (Brems.) experimental
  • stations.
  • Planned project period: (5 years)
  • Proposed project budget: 25 MEuro (~ 60 MTL)
  • Collaboration:
  • Ankara, Gazi, S. Demirel, İstanbul, Bilkent, METU, Uludağ
  • Universities

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

extended project

EXTENDED PROJECT

  • Project Team:
  • Ankara U.:
      • Ö. Yavaş, A. Hiçsönmez, A. Aksoy, Z. Nergiz, Ç. Kaya, Ö. Karslı, B. Koç, E. Kazancı, M. Aydar,....
  • Gazi U.:
      • P. Arıkan, E. Çiçek,....
  • S. Demirel U.:
  • G. Yeğin, E. Kürkçüoğlu, A.G. Kalaycı, M. Şekerci, .....
  • İstanbul U.
  • S. Özkorucuklu,
  • METU:
      • F. Severcan, H. Altan, O. Esentürk,....
  • Bilkent U.:
      • A. Aydınlı, Ö. İlday,....
  • Uludag U.:
      • İ. Tapan, E. Pilçer, F. Kocak, ...
  • + ~20 Engineers, Technicians, MSc and PhD Students

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

layout

Layout

FEL BEAM

  • A: Diagnostic
    • 6 x 6.7 x 4.2 m

(w x l x h)

  • B: Ultrafast
    • 6 x 10 x 4.2 m
  • C: IR
    • 6 x 7.2 x 4.2 m
  • D: Material Processing
    • 6 x 7.5 x 4.2 m
  • E: Biology
    • 6 x 7.5 x 4.2 m

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

designated labs at tarla facility in the future

Designated Labs at TARLA Facility in the Future

Diagnostic Lab

FEL I & II

Ultrafast Photonics Applications Laboratory

Bio-Micro Spectroscopy Lab

FEL BEAM

IR Spectroscopy Lab

Materials Processing Lab

  • There are 5 laboratories in total. There is overlap among experiments that will be conducted in these laboratories.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

bio micro spectroscopy laboratory

Bio-Micro Spectroscopy Laboratory

Measurementswill be centeredaroundsimilarwork done byprojectleader at BrookhavenNationalLaboratoriesutilizingSynchrotron-FTIR techniques. Thesetechniqueswill be adaptedtothe TARLA-FEL beam. Capabiliteswillincludebothspectroscopyandimaging of biologicalspecimens.

Coupledwithcollaborationfromthemedicalschool of Ankara Universitythelaboratory is expectedtobecome a premiercenterforbiologicalreserach.

Experimentsareplannedforpre-FEL start

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

bio micro spectroscopy laboratory1

Bio-Micro Spectroscopy Laboratory

In this laboratory, together with multivariate statistical analytical methods, many different topics, that realte to important areas for medical applications will be investigated. Some are:

  • Identification of disease induced alterations in dynamic, structure and content of

macromolecules in the level of tissue, cell, organelle and biological fluid,

  • Determination of biomarkers which can be used in the early diagnosis of diseases,Following of

the disease progression, examination of the treatment strategies and the efficacy of treatment

methods

  • Several radiobiological investigations including the determination of the radiation dose and the

effects of radiation,

  • Determination of postmortem interval, fingerprint, presence of illicit drugs in biological samples,
  • Examination of the effects of environmental pollutants on living organisms such as fish, plant,

water flea etc.

  • Investigation of the possible usage of organisms to find out biomarkers in characterization of the

environmental pollutants,

  • Identification of food and beverage quality in Food Industry,
  • Identification of bacteria species in Microbiology,
  • Diagnosis and characterization of disease and stress factors in plants

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

processes

Processes

  • With increased laser power and beam qualitymore and more application fields were developed and meanwhile laser processes can be foundin nearly all production areas and branches .

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

prof dr arif dem r ve ekibinin al malar

Prof.Dr. Arif DEMİR ve ekibinin çalışmaları

1- Laser Technologies Research and Application Center - LATARUM

2- Fundamentallaserparameters in materialprocessing (pulseduration,

wavelength, pulseenergy, repetation rate)

3- Millisecondlasermaterialprocessing

welding (titanyum, magnesium ) cladding,

cutting (stainlesssteel) drilling (ceramic)

4- Nanosecondlasermaterialprocessing

drillingceramic, LIBS, thin film coating

5-Femtosecond lasermetarialprocessing

hydrofobicandhydrofilicsurfaces

nanoparticleproduction

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

conclusions

Conclusions

  • We intensively wish to obtain the good results for the first facility which will be used for TAC’s further steps…
  • Turkey and the region has good potential to use such a facility and completion of TAC will give impuls and oppurtunities to researchers to use new and modern tools

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

slide44

Thank you for your attention…

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Pervin ARIKAN | Gazi University

schematic view of tac ir fel brems facility1

Demet Sıkıştırıcı

Schematic View of TAC IR-FEL & Brems. Facility

Enjektör

250 keV

LINAK-1

5-20 MeV

LINAK-2

8-40 MeV

Lazer

3-250 µm

SEL Üretimi

* Suat Özkorucuklu, THM TARLA Tesisi, 09.09.2013, UPHUK-V

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

experimental groups

Experimental Groups

FEL

Pervin Arıkan

Diagnostic

İ.Tapan

UltraFast PAL

H. Altan

O. Esentürk

Gen. IR Lab.

A.Aydinlı

Bio-Micro SL

F. Severcan.

Material PL

Ö. İlday

BREMSSTRAHLUNG

İskender Akkurt

Detector

M.Doğru

S. Şahin

Simulation

N. Karpuzcu

e. Dump

G. Yeğin

S.Sariaydin

Photon Dump

H.O. Tekin

Radiator

N. Demir

Z.Demirci

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

laboratories

Laboratories

  • Ultrafast Photonics Applications Laboratory
    • Lab Coordinators : Hakan Altan (Physics METU), Okan Esentürk (Chemistry METU)
  • IR Spectroscopy Laboratory
    • Lab Coordinator: Atilla Aydınlı (Physics Bilkent)
  • Biological Micro Spectroscopy Laboratory
    • Lab Coordinator: Feride Severcan (Biology METU)
  • Material Processing Laboratory
    • Lab Coordinator: F. Ömer İlday (Physics Bilkent)

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

physical requirements

Physical requirements

  • Area = 42 m2
  • Dimensions = 6x7 m2
  • Height = 3.5 m
  • Floor = zemin
  • Environmentalrequirements:
  • Temperature : 21.0 ± 1.0 oC
  • Humidity : % 45 ± %10.
  • Services required:
  • Pressurizedcleanroom (class 10000)
  • Coolingwater (> 7 bar)
  • Pressurizeddryair (> 3 bar)
  • UPS (min 5kVA )
  • 220V ve 380V / 50Hz
  • Gasandliquidnitrogenandliquidhelium.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

challenges with ir fir radiation

Challenges with IR/FIR Radiation

D. Mittleman,

“Imaging and Sensing With Terahertz Radiation”, Research Lab Expo 2005

  • FIR radiation is severely attenuated by water vapor
  • Beamwilltravel in evacuated (1mbar) steelpipeswhoseinnerdiameter is 10cm.
  • Diffractsquickly - needmoreoptics on U-90 beamlinethen U-25 beamlinetoarrive at an accepatble spot diameter at eachlab
  • Moreopticsmeansmorelosses, needrealhighreflecting (99%) specialgoldcoatedmirrors on eachbeamline.
  • Radii of curvature of eachfocusingoptic has to be muchlargerthandiameter of thebeam at thatapertureto limit sphericalaberration

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

modification on laboratories

Modification on laboratories

  • Dimensions of the user laboratories;
  • P.S. Without touching the walls of the Accelerator and FEL caves
  • Laboratory “1”  Width of the room is 6.68m
  • Depth of the room is 5.335m + 0.7m from corridor, total will be around 6m
  • Minimum height of the room is 3.5m (excluding thickness of the ceiling panel)
  • Laboratory “2”  Width of the room is 10m
  • Depth of the room is 5.335m + 0.7m from corridor, total will be around 6m
  • Minimum height of the room is 3.5m (excluding thickness of the ceiling panel)
  • Laboratory “3”  Width of the room is 7.2m
  • Depth of the room is 5.335m + 0.7m from corridor, total will be around 6m
  • Minimum height of the room is 3.5m (excluding thickness of the ceiling panel)

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

slide51

Laboratory “4”  Width of the room is 5m

  • Depth of the room is 6m
  • Minimum height of the room is 3.5m (excluding thickness of the ceiling panel)
  • Laboratory “5”  Width of the room is 5m
  • Depth of the room is 6m
  • Minimum height of the room is 3.5m (excluding thickness of the ceiling panel)
  • Laboratory “6”  Width of the room is 5m
  • Depth of the room is 6m
  • Minimum height of the room is 3.5m (excluding thickness of the ceiling panel)

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

synchronization

Synchronization

MASTER OSCİLLATOR CLOCK 1.3GHZ

FEL 1, 13 MHz

E-GUN, 13MHz

LINAC 1, 1.3GHz

LINAC 2, 1.3GHz

FEL 2, 13 MHz

PlPlanned for the future

SEED LASER OSCILLATOR

Electro-Optic Detection

SEED LASER OSCILLATOR

AMPLIFICATION

AMPLIFIED PULSES

REGEN amplfiied system locked on to subharmonic frequency from 1.3GHz.

Amplified mJ pulses with duration less than 100fs, at center wavelength of about 800nm. Jitter is expected to be less than 1ps

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

ultrafast photonics laboratory design and development

Pump/Probe Measurement System

Sum Frequency Generation System

FEL synchronized Amplified Ti:Al2O3 laser with OPO/OPA conversion

(200-11000nm)

Visible/FEL/IR SFG Surface Characterization Set-up

Visible Pump/IR Probe Measurements

FEL Light Source

13MHz CW train

~2-250 mm wavelengths

Visible Pump/FEL Probe Measurements

Visible/IR SHG System

Ultrafast Photonics Laboratory Design and Development

  • One of the most important challenges with this laboratory is synchronization with the FEL pulse coming from the cave
  • Sub-harmonic will be derived from the linacs to drive the Ti:Al2O3 oscillator which will be operating at a multiple of the 13MHz train
  • Amplified laser system will be commercially bought and synchronization will also be done under the guidance of their technicans

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

budget

Budget

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

bio micro spectroscopy laboratory2

Bio-Micro Spectroscopy Laboratory

In this laboratory, together with multivariate statistical analytical methods, many different topics, that realte to important areas for medical applications will be investigated. Some are:

  • Identification of disease induced alterations in dynamic, structure and content ofmacromolecules in the level of tissue, cell, organelle and biological fluid,
  • Determination of biomarkers which can be used in the early diagnosis of diseases,Following of the disease progression, examination of the treatment strategies and the efficacy of treatment methods,
  • Several radiobiological investigations including the determination of the radiation dose and the effects of radiation,
  • Determination of postmortem interval, fingerprint, presence of illicit drugs in biological samples,
  • Examination of the effects of environmental pollutants on living organisms such as fish, plant, water flea etc.
  • Investigation of the possible usage of organisms to find out biomarkers in characterization of the environmental pollutants,
  • Identification of food and beverage quality in Food Industry,
  • Identification of bacteria species in Microbiology,
  • Diagnosis and characterization of disease and stress factors in plants

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

projected cost

Projected Cost

  • Preliminary Budgets

(5 year Plan):

    • Ultrafast Photonics App. Lab:
          • Equipment: 2M € + VAT
          • Personnel: 500k TL
          • Lab Development: 2M TL
    • Bio-Micro Spectroscopy Lab:
          • Equipment: 2M € + VAT
          • Personnel: 1M TL
          • Lab Development: 3M TL

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

nsirm

NSIRM

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

nsirm1

NSIRM

Brogersma, Stanford

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

pulsed laser deposition pld

Pulsed Laser Deposition (PLD)

  • Thin films of materials can be grown with PLD method. Pulsed laser is focussed on the material and under high vacuum the material is grown as a thin film on a substrate. In other methods like chemical vapor deposition (CVD) and molecular beam epitaxy (MBE) the material is heated and evaporated. Some materials like polymers are degraded, therefore, PLD method is preferred over the other methods.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

annealing

Annealing

  • Annealing is heating a material to a predetermined temperature, holding for a certain time, and then cooling to room temperature to change its physical properties like hardness or optical properties. Usually ovens are used for this kind of treatment. IR FEL is also useful and many researchers use IR FEL instead of an oven.
  • In this study, the formation of gold nanoparticles are observed under IR light. Cluster size was 2.4nm before IR light. It has become 6.5nm after illumination and the density was reduced which was the opposite of the condition after conventional annealing.

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

ir microscopy

IR Microscopy

http://grad.physics.sunysb.edu

LSUM 2013, October 5-7, 2013 | Ankara University Pervin Arıkan| Gazi University

Ömer Yavaş | Ankara University

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