意大利米蘭理工大學(xué)2023年招聘博士后職位(光熱顯微鏡用于腫瘤活檢的分級和分期)
米蘭理工大學(xué)(意語:Politecnico di Milano;簡稱Polimi)創(chuàng)建于1863年,坐落于意大利米蘭,僅專注于工程技術(shù)領(lǐng)域,不設(shè)置綜合院校的文、法、醫(yī)等學(xué)院。
米理是歐洲頂尖工科院校聯(lián)盟IDEA聯(lián)盟成員,也是米理-TUM-帝國理工學(xué)院歐洲人才學(xué)會聯(lián)盟、歐洲設(shè)計(jì)高校聯(lián)盟(MEDes)、米理-清華大學(xué)中意國家級創(chuàng)新基地、米理-麻省理工ROCCA等成員。
米蘭理工大學(xué)誕生了歐洲首個電子計(jì)算中心,擁有歐洲最大的風(fēng)洞實(shí)驗(yàn)室、歐洲最大的ICT部門之一(IEEE/ACM Fellow30余位)、世界Top3大學(xué)企業(yè)孵化器Polihub。米蘭理工大學(xué)的1169位教師中,有185名教授進(jìn)入2022年斯坦福大學(xué)發(fā)布的世界前2%頂尖科學(xué)家之列。諾獎得主、建筑學(xué)界最高獎普利茲克獎得主(共5位)、阿瑪尼/迪奧等著名時尚品牌首席設(shè)計(jì)師等都曾于此學(xué)習(xí)或任教。繼李克強(qiáng)總理于2014年訪問米理后,習(xí)近平主席和意大利總統(tǒng)馬塔雷拉于2017年2月出席了米理-清華合作協(xié)議簽署儀式。
Post-Doc Position Open
Universities and Institutes of Italy
Italy
February 15, 2024
Contact:N/A
Offerd Salary:Negotiation
Location:N/A
Working address:N/A
Contract Type:Other
Working Time:Full time
Working type:N/A
Ref info:N/A
3 Nov 2023
Job Information
Organisation/Company
Politecnico di Milano
Department
Physics
Research Field
Physics » Applied physics
Researcher Profile
Recognised Researcher (R2)
Country
Italy
Application Deadline
15 Feb 2024 - 19:06 (Europe/Brussels)
Type of Contract
Temporary
Job Status
Full-time
Offer Starting Date
1 Mar 2024
Is the job funded through the EU Research Framework Programme?
HE
Is the Job related to staff position within a Research Infrastructure?
No
Offer Description
POST-DOC POSITION
Ultrabroadband Photothermal Microscope for grading and staging of tumor biopsies
Context: Within the European Pathfinder project TROPHY - ultrafast hOlograPHic FTIR microscopy - we are looking for an aspiring scientist to fill a PostDoc position at Politecnico di Milano, working on a cutting-edge project that promises to push the boundaries of vibrational microscopy.
Project overview: Photo-thermal microscopy is a rapidly emerging technique for the imaging of biological samples with high selectivity, sensitivity and spatial resolution. It relies on the photo-thermal effect, which occurs when a visible probe beam reads out the local temperature change induced by a second laser beam in the mid-infrared absorbed by the sample. The research program aims at developing a novel photo-thermal microscope based on a compact Ytterbium femtosecond oscillator capable of providing images with high chemical specification and at video speed of biological samples and in particular of tumor biopsies.
Activity:
· Synthesize ultrabroadband pulses in the mid-infrared for sample excitation and narrow band pulses in the visible for extracting the photo-thermal signal.
· Design a set of optics and of galvanometric mirrors for the simultaneous scanning of infrared and visible pulses over sample areas up to 1 square millimeter.
· Characterize the photo-thermal response of several samples as a function of incident intensity, scanning speed, delay between pump and probe pulses, focusing conditions.
· Implement a Fourier transform interferometer for extracting the spectral content of the photothermal signal.
· Acquire hyper-spectral images of biopsies to be compared against images from competing or complementary approaches and to be classified via AI tools.
Employment Conditions:
· A net salary: 2 355.25