#سلسله_سمینارهای_هفتگی گروه سیستم های پیچیده شهید بهشتی
« دینامیک شبکه های مقید »
فرشته ربانی، دانشجوی دکتری سیستم های پیچیده، دانشگاه شهیدبهشتی
یکشنبه 11 مهر، ساعت 16:15 کلاس 1 دانشکده فیزیک
حضور در این جلسات برای همه ی فعالان و علاقمندان آزاد است.
ضمنا علاقه مندان می توانند برای ارائه موضوعات خود به ادمین پیام داده و یا در جلسه بصورت حضوری مطرح نمایند.
@onmjnl
« دینامیک شبکه های مقید »
فرشته ربانی، دانشجوی دکتری سیستم های پیچیده، دانشگاه شهیدبهشتی
یکشنبه 11 مهر، ساعت 16:15 کلاس 1 دانشکده فیزیک
حضور در این جلسات برای همه ی فعالان و علاقمندان آزاد است.
ضمنا علاقه مندان می توانند برای ارائه موضوعات خود به ادمین پیام داده و یا در جلسه بصورت حضوری مطرح نمایند.
@onmjnl
خب حالا که نوبل فیزیک و شیمی با تپولوژی در همآمیخته شدند، بد نیست که نگاه کنیم به تاثیر تپولوژی در همگامسازی:
How topology can affect synchronization:
https://arxiv.org/abs/1610.00296
How topology can affect synchronization:
https://arxiv.org/abs/1610.00296
Quantum Refrigerator and the III-law of Thermodynamics
Amikam Levy, Robert Alicki, Ronnie Kosloff
https://arxiv.org/abs/1205.1347
Amikam Levy, Robert Alicki, Ronnie Kosloff
https://arxiv.org/abs/1205.1347
#سلسله_سمینارهای_هفتگی گروه سیستم های پیچیده شهید بهشتی
علاقه مندان می توانند برای ارائه موضوعات خود به ادمین پیام داده یا به صورت حضوری در جلسه مطرح نمایند.
@onmjnl
علاقه مندان می توانند برای ارائه موضوعات خود به ادمین پیام داده یا به صورت حضوری در جلسه مطرح نمایند.
@onmjnl
🔵 Introduction to focus issue: Patterns of network synchronization
http://scitation.aip.org/content/aip/journal/chaos/26/9/10.1063/1.4962970
http://scitation.aip.org/content/aip/journal/chaos/26/9/10.1063/1.4962970
scitation.aip.org
Introduction to focus issue: Patterns of network synchronization
The study of synchronization of coupled systems is currently undergoing a major surge fueled by recent discoveries of new forms of collective dynamics and the development of techniques to characterize a myriad of new patterns of network
synchronization.…
synchronization.…
🔵 Activity flow over resting-state networks shapes cognitive task activations
http://www.nature.com/neuro/journal/vaop/ncurrent/full/nn.4406.html
http://www.nature.com/neuro/journal/vaop/ncurrent/full/nn.4406.html
☝️ RESEARCH IN PAIRS
The focus of "Research in Pairs" (RiP) is to bring together small groups of researchers to carry out joint research in the stimulating atmosphere of the Oberwolfach Institute. Projects from all areas of mathematics can be supported by this program, in particular, interdisciplinary cooperation is encouraged.
The stay of a research "pair", which means at least two and at most four people, can last between two weeks and one month (in exceptional cases up to three months). It is required that not all come from the same place. The Institute will provide office space, accommodation (full board and lodging), and an allowance for incidental expenses. Travel expenses can be reimbursed only in exceptional cases. The Institute wishes to increase the number of female participants. Female mathematicians are strongly encouraged to apply.
It is also possible that 2-4 workshop participants (who are already invited and have accepted) apply for a 1-2 week prolongation of their stay after the workshop as a RiP group.
The focus of "Research in Pairs" (RiP) is to bring together small groups of researchers to carry out joint research in the stimulating atmosphere of the Oberwolfach Institute. Projects from all areas of mathematics can be supported by this program, in particular, interdisciplinary cooperation is encouraged.
The stay of a research "pair", which means at least two and at most four people, can last between two weeks and one month (in exceptional cases up to three months). It is required that not all come from the same place. The Institute will provide office space, accommodation (full board and lodging), and an allowance for incidental expenses. Travel expenses can be reimbursed only in exceptional cases. The Institute wishes to increase the number of female participants. Female mathematicians are strongly encouraged to apply.
It is also possible that 2-4 workshop participants (who are already invited and have accepted) apply for a 1-2 week prolongation of their stay after the workshop as a RiP group.
🔵 The relevance of #thermodynamics to #economics
The physical theory of thermodynamics is based on two laws: The first law states that energy is neither created nor destroyed in any isolated system (a conservation principle). The second law of thermodynamics — also known as the entropy law — states that energy tends to be degraded to ever poorer qualities (a degradation principle).
Georgescu argues that the relevance of thermodynamics to economics stems from the physical fact that man can neither create nor destroy matter or energy, only transform it. The usual economic terms of 'production' and 'consumption' are mere verbal conventions that tend to obscure that nothing is created and nothing is destroyed in the economic process — things are only being transformed.
A primary objective of ecological economics (EE) is to ground economic thinking and practice in physical reality, especially in the laws of physics (particularly the laws of thermodynamics) and in knowledge of biological systems. It accepts as a goal the improvement of human well-being through development, and seeks to ensure achievement of this through planning for the sustainable development of ecosystems and societies. Of course the terms development and sustainable development are far from lacking controversy. Richard B. Norgaard argues traditional economics has hi-jacked the development terminology in his book Development Betrayed.
The physical theory of thermodynamics is based on two laws: The first law states that energy is neither created nor destroyed in any isolated system (a conservation principle). The second law of thermodynamics — also known as the entropy law — states that energy tends to be degraded to ever poorer qualities (a degradation principle).
Georgescu argues that the relevance of thermodynamics to economics stems from the physical fact that man can neither create nor destroy matter or energy, only transform it. The usual economic terms of 'production' and 'consumption' are mere verbal conventions that tend to obscure that nothing is created and nothing is destroyed in the economic process — things are only being transformed.
A primary objective of ecological economics (EE) is to ground economic thinking and practice in physical reality, especially in the laws of physics (particularly the laws of thermodynamics) and in knowledge of biological systems. It accepts as a goal the improvement of human well-being through development, and seeks to ensure achievement of this through planning for the sustainable development of ecosystems and societies. Of course the terms development and sustainable development are far from lacking controversy. Richard B. Norgaard argues traditional economics has hi-jacked the development terminology in his book Development Betrayed.