How do I apply for the Research Assistant - Computational simulation of solid-state hyperfluorescence position at Donostia International Physics Center (DIPC) and track my application?

We provide a direct link to the official application portal. You can apply directly here . Additionally, you can easily track this and other applications by clicking the bookmark icon to save it to your YGI Kanban board .

Is the internship at Donostia International Physics Center (DIPC) paid and what compensation can candidates expect?

Yes, this is a paid internship opportunity. Exact compensation details are typically finalized during the company interview process.

What are the working arrangements and expected duration for the Research Assistant - Computational simulation of solid-state hyperfluorescence role?

This position is a not disclosed, structured as a not disclosed role, with an expected duration of 6 months.

Does Donostia International Physics Center (DIPC) provide visa sponsorship or assistance for international applicants?

Regarding visa assistance and sponsorship for this role, the official status is currently listed as: Not disclosed.

Research Assistant - Computational simulation of solid-state hyperfluorescence

Q: What educational background or degree level is required for the Research Assistant - Computational simulation of solid-state hyperfluorescence at Donostia International Physics Center (DIPC)?

Candidates are generally expected to be holding or pursuing the following degree levels: Bachelor.

Donostia International Physics Center (DIPC)

Found 2 months ago

Location

Donostia / San Sebastián, Spain

Duration (Months)

6 Months

Time

Not disclosed

Work Mode

Not disclosed

Salary

Salary is commensurate with qualifications and consistent with our pay scales

Visa Help

Not disclosed

Last Verified

1 month ago

Education

Bachelor

Skills & Qualifications

Technical Skills

Quantum mechanics
computation of the electronic structure of molecular systems
excited-state electronic structure methods
theoretical characterization of molecular photophysical processes

Soft Skills

highly motivated

Job Description

The project aims to computationally characterize hyperfluorescence in molecular solids, a photophysical process in which reverse intersystem crossing (rISC) enables the recycling of triplet (dark) excitons into the singlet excited-state manifold, followed by energy transfer to a fluorescent emitter. The study will focus on a multicomponent molecular solid comprising: (i) a chromophore capable of efficient rISC, (ii) a fluorescent emitter, and (iii) a molecular host. The project will begin with the selection of suitable molecular candidates based on their electronic and photophysical properties. Subsequently, tailored force-field parameters will be developed, and the solid-state morphology will be generated through molecular dynamics simulations. On these structures, excited-state energies and relevant interstate couplings governing rISC and energy-transfer processes will be computed. These parameters will then be used to simulate exciton dynamics under varying conditions, including temperature, energetic and coupling models, thermal disorder, and compositional effects of the solid. The project is expected to culminate in a comprehensive computational description of hyperfluorescence in molecular solids and the dissemination of the main findings in a peer-reviewed research article.

Requirements

highly motivated students recently graduated from the University in Physics or related fields
solid basic knowledge of quantum mechanics
demonstrated experience in the computation of the electronic structure of molecular systems
strong background in excited-state electronic structure methods and in the theoretical characterization of molecular photophysical processes

Software Engineering

Software QA & Testing

Languages

English

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Open Positions

12Open Positions

Research Assistant - Computational simulation of solid-state hyperfluorescence

Education

Skills & Qualifications

Technical Skills

Soft Skills

Job Description

Requirements

Related Field

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