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I. "Personal Data" (i.e. information that can be used to identify you) includes information such as:
First name and last name /surname
E-mail address
Phone number
II. European Data Protection Regulation (GDPR)
III. "Scientific Events":
International Polish-Slovenia Seminar on Soft Matter - PSIS on Soft Matter
Young4Soft Matter Workshop - Y4SM Workshop
IV. Co-organizer of Scientific Events:
Institute of High Pressure PhysicsPolish Academy of Sciences (IHHP PAS), 01-142 Warsaw, Sokołowska 29/37, Poland.
The term used in this document means:
Discover the secrets of Soft Matter with us!
The Administrator operates in accordance with the Personal Data entrustment agreement concluded between the hosting service provider, i.e. ALEASYSTENT Sp. z o. o. with its registered office at Postępu 14A, 02-676 Warszawa, and the Administrator.
The administrator together with ALEASYSTENT Sp. z o. o. is responsible for and ensures the proper processing and security of personal data of persons voluntarily contacting via the Application Form and/or Registration Form located on this Website and persons voluntarily providing their Personal Data and photos in order to achieve the purposes of this Website.
The purposes of this website are set out in the footer.
This data protection declaration applies to the following website with the URL address: https://young4softmatter.pl.
The administrator of your Personal Data is the owner of the Website at the URL address: https://young4softmatter.pl,
Aleksandra Drozd-Rzoska, 41-500 Chorzów, Wolności 3/5.
We may share your Personal Data with third parties in the following circumstances or as otherwise
described in the Data Privacy and the Privacy Policy:
When you join a Scientific Events, we securely share certain limited personal information about you with the Scientific Events leaders to enable them to provide their services to you (this includes sharing your name and sometimes email address with your course mentor). Partners acknowledge and agree that they are responsible for compliance with all applicable laws and regulations related to the protection of personal data of which they are the administrators. If your personal data has been collected by a Partner, please contact the Partner directly and review its privacy policy if you have questions about how the Partner uses your personal data.
We will share your personal data with Partners only with your consent or at your request.
Depending on your settings shared content and profile information may be publicly visible to other students and leaders in your Scientific Events. If you choose to use social features, participate in a group discussion or ask a leader a question, your information (including your name) may also be publicly visible to other users, depending on your settings.
Social media features available on the website (such as the Share on Facebook button) may allow the third-party social media provider to collect data such as your IP address and the page of the Services you are visiting, and may set a cookie to enable the feature. Your interactions with these features are governed by the third party's Privacy Policy.
We will share your Personal Data with Partners only with your consent or at your request.
The use of COOKIES:
Our website can use cookies which aim to identify your browser while you are using our website to let us know what page to show to you. Cookies do not contain any Personal Data.
Sharing by Scientific Events
This WEBSITE was created to realize the following, main GOALS:
Soft Matter systems have common features, such as the dominance of elements or local structures on the mesoscale, combined with their relatively weak interactions, which turns out to be sufficient to obtain a tendency to self-organize with even a small change in parameters. This additionally leads to extraordinary sensitivity to even minor endogenous and exogenous factors, e.g., nanoparticles and pressure. In the case of the latter, relatively low pressures P~1 GPa, or even much lower ones, can lead to phases/states with exotic features, often persisting after decompression.
Worth stressing, that for "classical hard matter" systems, a pressure similar to that at the Earth's core (~300 GPa) is typically required, and the resulting "exotic" properties most often disappear upon decompression.
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