Enkeleda Balliu

Forskare|Researcher

  • Tjänstetitel: Forskare
  • Akademisk titel: Doktorand
  • Avdelning: Institutionen för elektronikkonstruktion (EKS)
  • Telefon arbete: +46 (0)10-1428351
  • E-postadress: enkeleda.balliu@miun.se
  • Rumsnummer: S453a
  • Ort: Sundsvall
  • Forskningscentra: Sensible Things that Communicate
  • Anställd vid ämnet: Elektronik

Forskningsprojekt

Avslutade

DRIVE

Publikationer

Artiklar i tidskrifter

Balliu, E. , Engholm, M. , Digonnet, M. J. F. & Nilsson, H. (2022). Quasi‐cw pumping of a single‐frequency fiber amplifier for efficient shg in ppln crystals with reduced thermal load. Applied Sciences, vol. 12: 1    

Zhang, R. , Hummelgård, M. , Örtegren, J. , Andersson, H. , Blomquist, N. , Phadatare, M. , Patil, R. , Arshadi Rastabi, S. & et al. (2022). Triboelectric biometric signature. Nano Energy, vol. 100  

Balliu, E. , Engholm, M. , Digonnet, M. J. F. , Coetzee, R. S. , Elgcrona, G. & Nilsson, H. (2021). Compact single-frequency mopa using a silica fiber highly doped with yb3+. Applied Sciences, vol. 11: 21    

Vigneron, P. , Boilard, T. , Balliu, E. , Broome, A. L. , Bernier, M. & Digonnet, M. J. F. (2020). Loss-compensated slow-light fiber Bragg grating with 22-km/s group velocity. Optics Letters, vol. 45: 11, ss. 3179-3182.  

Balliu, E. , Boetti, N. G. , Pugliese, D. , Lousteau, J. , Engholm, M. , Milanese, D. & Nilsson, H. (2020). Single-frequency, pulsed Yb3+-doped multicomponent phosphate power fiber amplifier. Journal of Optics, vol. 22: 11  

Zhang, R. , Hummelgård, M. , Örtegren, J. , Yang, Y. , Andersson, H. , Balliu, E. , Blomquist, N. , Engholm, M. & et al. (2019). Sensing body motions based on charges generated on the body. Nano Energy, vol. 63  

Balliu, E. , Andersson, H. , Engholm, M. , Öhlund, T. , Nilsson, H. & Olin, H. (2018). Selective laser sintering of inkjet-printed silver nanoparticle inks on paper substrates to achieve highly conductive patterns. Scientific Reports, vol. 8: 1    

Doktorsavhandlingar, sammanläggningar

Balliu, E. (2022). Power Scaling of Highly Compact Single-Frequency Yb-Doped Fiber Amplifiers. Diss. (Sammanläggning) Sundsvall, Sweden : Mid Sweden University, 2022 (Mid Sweden University doctoral thesis : 363)  

Konferensbidrag

Vigneron, P. , Boilard, T. , Broome, A. , Balliu, E. , Bernier, M. & Digonnet, M. J. F. (2020). 8.5-fm resonances in an amplified slow-light fiber Bragg grating for high-precision metrology. I Optical, Opto-Atomic, and Entanglement-Enhanced Precision Metrology II. San Fransisco :

Balliu, E. , Engholm, M. & Nilsson, H. (2019). A compact, single-frequency, high-power, SBS-free, Yb-doped single-stage fiber amplifier. I Proceedings of SPIE - The International Society for Optical Engineering.. S. 6pp-  

Balliu, E. , Thontakudi, A. , Knall, J. M. & Digonnet, M. J. F. (2019). Predictive comparison of anti-Stokes fluorescence cooling in oxide and non-oxide fiber hosts doped with Er3+, Pr3+, or Yb3+. I Proceedings of SPIE - The International Society for Optical Engineering : Photonic Heat Engines: Science and Applications.  

Balliu, E. , Andersson, H. , Engholm, M. , Zhang, R. , Forsberg, S. & Olin, H. (2016). Laser processing of graphene oxide on different coated paper substrates. I 14th TAPPI Advanced Coating Symposium 2016.. S. 97--101.

Balliu, E. , Andersson, H. , Engholm, M. , Forsberg, S. & Olin, H. (2016). Laser-assisted reduction of graphene oxide for paper based large area flexible electronics. I Proceedings of SPIE - The International Society for Optical Engineering.  

Balliu, E. , Andersson, H. , Hummelgård, M. , Olin, H. & Engholm, M. (2015). Laser sintering of silver nano-particles inks printed on paper substrates. I Proceedings of SPIE - The International Society for Optical Engineering.. S. Art. no. 935112-  

Balliu, E. , Engholm, M. , Hellström, J. , Elgcrona, G. & Karlsson, H. (2014). Compact nanosecond pulsed single stage Yb-doped fiber amplifier. I Proceedings of SPIE - The International Society for Optical Engineering.. S. Art. no. 895910-  

Balliu, E. , Massimo, O. , Andrea, B. , Alessio, C. & Guido, P. (2013). Pulsed thulium doped fiber laser at 1.94 μm based on a seed diode. I Proc. SPIE 8601, Fiber Lasers X: Technology, Systems, and Applications, 860133 (February 26, 2013).  

Sidan uppdaterades 2022-03-24