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{{Multiple issues
What is the number one exterior hemorrhoid treatment? Well, this is not an effortless question since different persons have different conditions. But, inside this article, you'll learn several methods to help healing the hemorrhoid.<br><br>Another type of [http://hemorrhoidtreatmentfix.com/hemorrhoid-surgery hemorrhoid surgery] is the pill which is to be swallowed. It helps to control blood flows and pressure in the body program. This helps to tighten vein tissues plus this offers a relaxation for the hemorrhoid area. This nonetheless has several negative effects which might not augur effectively for certain persons. Pharmacists might actually not prescribe this way as a result of the negative effects.<br><br>For instance, in the case of irregularity you'd make certain that a diet involved more fiber and water plus less processed food. This is not the entire pic and is a bit too simplistic, nevertheless we get the general idea. Another advantage to using all-natural methods whenever dealing with the irregularity problem is that not just would this remedy the constipation, nevertheless there are definite total health benefits to eating correctly.<br><br>A healthy digestion may equally be a key for not having to undertake any hemorrhoid cure. Good digestion ehances normal bowel movement. Exercising daily, walking for regarding 20 to 30 minutes a day supports the digestive program.<br><br>Then, don't strain out. I do have one answer which has aided greatly. I would like to review a pretty safe plus all-natural treatment that functions effectively in a limited days. It is known as the H Miracle system.<br><br>Or, try to apply phenylephrine or Preparation H to the area where we have hemorrhoid. According to several experts, utilize of the ointment is moreover truly powerful. It can actually constrict the blood vessels and reduce the redness and all.<br><br>Walter and I drifted apart inside the following years and I developed some minor hemorrhoid difficulties myself. Every time my hemorrhoids flared-up it brought back memories of my friend Walter and his agony. I prayed that my minor flare-ups wouldn't ever cause surgery. I don't understand if I could have prepared it by knowing what I had seen before.
|refimprove = September 2011
|context = September 2011
|technical = September 2011
}}
[[File:Spin glass by Zureks.svg|thumb|Schematic representation of the '''random''' spin structure of a '''spin glass''' (top) and the '''ordered''' one of a '''ferromagnet''' (bottom)]]
{{multiple image
| direction = horizontal
| width = 150
| footer    = The magnetic disorder of spin glass compared to a ferromagnet is analogous to the positional disorder of glass (left) compared to quartz (right).
| image1    = SiO2_-_Glas_-_2D.png
| alt1      = Amorphous SiO<sub>2</sub>
| caption1  = Glass (amorphous SiO<sub>2</sub>)
| image2    = SiO2_-_Quarz_-_2D.png
| alt2      = Crystalline SiO<sub>2</sub>)
| caption2  = Quartz (crystalline SiO<sub>2</sub>)
}}
 
A '''spin glass''' is a disordered [[magnet]] with [[Geometrical frustration|frustrated interactions]], augmented by [[stochastic]] positions of the spins, where conflicting interactions, namely both [[ferromagnet]]ic and also [[antiferromagnet]]ic bonds, are randomly distributed with comparable frequency. The term "glass" comes from an analogy between the ''magnetic'' disorder in a spin glass and the ''positional'' disorder of a conventional, chemical [[glass]], e.g., a window glass.
 
Spin glasses display many [[metastable]] structures, leading to a plenitude of time scales which are difficult to explore experimentally or in [[simulation]]s.
 
==Magnetic behavior==
It is the time dependence which distinguishes spin glasses from other magnetic systems.
 
Above the spin glass [[phase transition|transition temperature]], T<sub>c</sub>,<ref group="note"><math>T_c</math> is identical with the so-called "freezing temperature" <math>T_f</math></ref> the spin glass exhibits typical magnetic behaviour (such as [[paramagnetism]]).
 
If a magnetic field is applied as the sample is cooled to the transition temperature, magnetization of the sample increases as described by the [[Curie law]]. Upon reaching T<sub>c</sub>, the sample becomes a spin glass and further cooling results in little change in magnetization. This is referred to as the ''field-cooled'' magnetization.
 
When the external magnetic field is removed, the magnetization of the spin glass falls rapidly to a lower value known as the ''remanent'' magnetization.
 
Magnetization then decays slowly as it approaches zero (or some small fraction of the original value—this remains unknown).  This [[exponential decay|decay is non-exponential]] and no simple function can fit the curve of magnetization versus time adequately.<ref name=JPhys>{{cite article[J. Phys.: Condens. Matter 10 (1998) 11049–11054. Printed in the UK]BB}}</ref> This slow decay is particular to spin glasses.  Experimental measurements on the order of days have shown continual changes above the noise level of instrumentation.{{[J. Phys.: Condens. Matter 10 (1998) 11049–11054. Printed in the UK. BB]}}
 
Spin glasses differ from ferromagnetic materials by the fact that after the external magnetic field is removed from a ferromagnetic substance, the magnetization remains indefinitely at the remanent value. Paramagnetic materials differ from spin glasses by the fact that, after the external magnetic field is removed, the magnetization rapidly falls to zero, with no remanent magnetization.  In each case the decay is rapid and exponential.{{Citation needed|date=September 2011}}
 
If the sample is cooled below ''T''<sub>c</sub> in the absence of an external magnetic field and a magnetic field is applied after the transition to the spin glass phase, there is a rapid initial increase to a value called the ''zero-field-cooled'' magnetization. A slow upward drift then occurs toward the field-cooled magnetization.
 
Surprisingly, the sum of the two complicated functions of time (the zero-field-cooled and remanent magnetizations) is a constant, namely the field-cooled value, and thus both share identical functional forms with time,<ref>(Nordblad et al.)</ref> at least in the limit of very small external fields.
 
==Edwards–Anderson model==
In this model, we have spins arranged on a <math>d</math>-dimensional lattice with only nearest neighbor interactions similar to the [[Ising model]]. This model can be solved exactly for the critical temperatures and a glassy phase is observed to exist at low temperatures.<ref name=nishimori>{{cite book|last=Nishimori|first=Hidetoshi|title=Statistical Physics of Spin Glasses and Information Processing: An Introduction|year=2001|publisher=Oxford University Press|location=Oxford|isbn=0-19-850940-5, 9780198509400|pages=243|url=http://preterhuman.net/texts/science_and_technology/physics/Statistical_physics/Statistical%20physics%20of%20spin%20glasses%20and%20information%20processing%20an%20introduction%20-%20Nishimori%20H..pdf}}</ref> The Hamiltonian for this spin system is given by:
 
: <math>
H = -\sum_{\langle ij\rangle}J_{ij}S_{i}S_{j},
</math>
 
where <math>S_{i}</math> refers to the [[Pauli spin matrix]] for the spin-half particle at lattice point <math>i</math>. A negative value of <math>J_{ij}</math> denotes an antiferromagnetic type interaction between spins at points <math>i</math> and <math>j</math>. The sum runs over all nearest neighbor positions on a lattice, of any dimension.
The variables <math>J_{ij}</math> magnetic nature of the spin-spin interactions are called bond or link variables. In order to determine the partition function for this system, one needs to average the free energy <math>f[J_{ij}] = -\dfrac{1}{\beta}\ln \mathcal{Z}\left[J_{ij}\right]</math> where <math>\mathcal{Z}\left[J_{ij}\right] = \operatorname{Tr}_{S}e^{\left(-\beta H\right)}</math>, over all possible values of <math>J_{ij}</math>. The distribution of values of <math>J_{ij}</math> is taken to be a gaussian with a mean <math>J_{0}</math> and a variance <math>J^{2}</math>:
 
: <math>
P(J_{ij}) = \dfrac{1}{\sqrt{2\pi J^2}}\exp\left\{-\dfrac{N}{2J^2}\left(J_{ij} - \dfrac{J_0}{N}\right)^2\right\}.
</math>
 
Solving for the free energy using the [[replica trick|replica method]], below a certain temperature, a new magnetic phase called the spin glass phase (or glassy phase) of the system is found to exist which is characterized by a vanishing magnetization <math>m = 0</math> along with a non-vanishing value of the two point correlation function between spins at the same lattice point but at two different replicas: <math>q = \sum_{i=1}^N S^\alpha_i S^\beta_i \neq 0</math>, where <math>\alpha, \beta</math> are replica indices. The order parameter for the ferromagnetic to spin glass phase transition is therefore <math>q</math>, and that for paramagnetic to spin glass is again <math>q</math>. Hence the new set of order parameters describing the three magnetic phases consists of both <math>m</math> and <math>q</math>.
Free energy of this system can be found, both under assumptions of replica symmetry as well as considering replica symmetry breaking. Under the assumption of replica symmetry, the free energy is given by the expression:
 
: <math>
\begin{align}
\beta f = &- \dfrac{\beta^2 J^2}{4}(1-q)^2 + \dfrac{\beta J_0 r m^r}{2} \\
&- \int \exp\left(-\frac{z^2}{2}\right)\log \left(2\cosh\left(\beta J z + \beta J_{0}m\right)\right) \, \mathrm{d}z.
\end{align}
</math>
 
==The model of Sherrington and Kirkpatrick==
In addition to unusual experimental properties, spin glasses are the subject of extensive theoretical and computational investigations. A substantial part of early theoretical work on spin glasses dealt with a form of [[mean field theory]] based on a set of [[replica trick|replicas]] of the [[partition function (statistical mechanics)|partition function]] of the system.
 
An important, exactly solvable model of a spin glass was introduced by D. Sherrington and S. Kirkpatrick in 1975. It is an [[Ising model]] with long range frustrated ferro- as well as antiferromagnetic couplings. It corresponds to a [[mean field theory|mean field approximation]] of spin glasses describing the slow dynamics of the magnetization and the complex non-ergodic equilibrium state.
 
Unlike the Edwards–Anderson (EA) model, in the system though only two spins interactions are considered, the range of each interaction can be potentially infinite (of the order of the size of the lattice). Therefore we see that any two spins can be lined with a ferromagnetic or an antiferromagnetic bond and the distribution of these is given exactly as in the case of Edwards–Anderson model. The Hamiltonian for SK model is very similar to the EA model:
 
: <math>
H = -\sum_{i<j} J_{ij} S_i S_j
</math>
 
where <math>J_{ij}, S_{i}, S_{j}</math> have same meanings as in the EA model. The equilibrium solution of the model, after some initial attempts by Sherrington, Kirkpatrick and others, was found by [[Giorgio Parisi]] in 1979 within the replica method. The subsequent work of interpretation of the Parisi solution—by M. Mezard, G. Parisi, M.A. Virasoro and many others—revealed the complex nature of a glassy low temperature phase characterized by ergodicity breaking, ultrametricity and non-selfaverageness. Further developments led to the creation of the [[cavity method]], which allowed study of the low temperature phase without replicas. A rigorous proof of the Parisi solution has been provided in the work of Francesco Guerra and [[Michel Talagrand]].
 
The formalism of replica mean field theory has also been applied in the study of [[neural networks]], where it has enabled calculations of properties such as the storage capacity of simple neural network architectures without requiring a training algorithm (such as [[backpropagation]]) to be designed or implemented.{{citation needed|date=May 2013}}
 
More realistic spin glass models with short range frustrated interactions and disorder, like the [[Carl Gauss|Gaussian]] model where the couplings between neighboring spins follow a [[Gaussian distribution]], have been studied extensively as well, especially using [[Monte Carlo simulation]]s. These models display spin glass phases bordered by sharp [[phase transition]]s.
 
Besides its relevance in condensed matter physics, spin glass theory has acquired a strongly interdisciplinary character, with applications to [[neural network]] theory, computer
science, theoretical biology, [[econophysics]] etc.
 
==Infinite-range model==
The infinite-range model is a generalization of the [[Spin glass#The model of Sherrington and Kirkpatrick|Sherrington–Kirkpatrick model]] where we not only consider two spin interactions but <math>r</math>-spin interactions, where <math>r \leq N</math> and <math>N</math> is the total number of spins. Unlike the Edwards–Anderson model, similar to the SK model, the interaction range is still infinite. The Hamiltonian for this model is described by:
 
: <math>
H = -\sum_{i_1 < i_2 < \cdots < i_r} J_{i_1 \dots i_r} S_{i_1}\cdots S_{i_r}
</math>
 
where <math>J_{i_1\dots i_r}, S_{i_1},\dots, S_{i_r}</math> have similar meanings as in the EA model. The <math>r\to \infty</math> limit of this model is known as the [[Random energy model]]. In this limit, it can be seen that the probability of the spin glass existing in a particular state, depends only on the energy of that state and not on the individual spin configurations in it.
A gaussian distribution of magnetic bonds across the lattice is assumed usually to solve this model. Any other distribution is expected to give the same result, as a consequence of the [[central limit theorem]]. The gaussian distribution function, with mean <math>\dfrac{J_0}{N}</math> and variance <math>\dfrac{J^2}{N}</math>, is given as:
 
: <math>
P(J_{i_1\cdots i_r}) = \sqrt{\dfrac{N^{r-1}}{J^2 \pi r!}} \exp\left\{-\dfrac{N^{r-1}}{J^2 r!}\left(J_{i_1\cdots i_r} - \dfrac{J_0 r!}{2N^{r-1}}\right)\right\}
</math>
 
The order parameters for this system are given by the magnetization <math>m</math> and the two point spin correlation between spins at the same site <math>q</math>, in two different replicas, which are the same as for the SK model. This infinite range model can be solved explicitly for the free energy<ref name=nishimori/>  in terms of <math>m</math> and <math>q</math>, under the assumption of replica symmetry as well as 1-Replica Symmetry Breaking.<ref name=nishimori/>
 
: <math>
\begin{align}
\beta f &= \dfrac{\beta^2 J^2 q^r}{4} - \dfrac{r\beta^2 J^2 q^r}{2} - \dfrac{\beta^2 J^2}{4} + \dfrac{\beta J_0 r m^r}{2} + \dfrac{r\beta^2 J^2 q^{r-1}}{4\sqrt{2\pi}} \\
&\qquad + \int \exp\left(-\frac{z^2}{2}\right)\log \left(2\cosh\left(\beta Jz\sqrt{\dfrac{rq^{r-1}}{2}} + \dfrac{\beta J_0 r m^{r-1}}{2}\right)\right) \, \mathrm{d}z
\end{align}
</math>
 
==Non-ergodic behavior and applications==
A so-called [[ergodicity|non-ergodic]] behavior happens in spin glasses below the freezing temperature <math>T_f</math>, since below that temperature the system cannot escape from the ultradeep minima of the hierarchically-disordered energy landscape.<ref group="note">The hierarchical disorder of the energy landscape may be verbally characterized by a single sentence: in this landscape there are "(random) valleys within still deeper (random) valleys within still deeper (random) valleys, ..., etc,"</ref> Although the freezing temperature is typically as low as 30 [[kelvin]] (−240 degrees Celsius), so that the spin glass magnetism appears to be practically without applications in daily life, there are applications in different contexts, e.g. in the already mentioned theory of [[neural networks]], i.e. in theoretical [[brain]] research, and in the mathematical-economical theory of [[optimization (mathematics)|optimization]].
 
==See also==
*[[Quenched disorder]]
*[[Replica trick]]
*[[Cavity method]]
*[[Geometrical frustration]]
*[[Phase transition]]
*[[Antiferromagnetic interaction]]
*[[Crystal structure]]
*[[Spin ice]]
*[[Orientational glass]]
 
==Notes==
{{Reflist|group="note"}}
 
==References==
{{Reflist}}
 
==Literature==
*{{citation|first1=David|last1=Sherrington|first2=Scott|last2=Kirkpatrick|journal=Physics Review Letters|title=Solvable model of a spin-glass|volume=35|pages=1792–1796|doi=10.1103/PhysRevLett.35.1792|issue=26|year=1975|bibcode=1975PhRvL..35.1792S}}. [http://papercore.org/Sherrington1975 Papercore Summary http://papercore.org/Sherrington1975]
*{{citation|first1=P.|last1=Nordblad|first2=L.|last2=Lundgren|first3=L.|last3=Sandlund|title=A link between the relaxation of the zero field cooled and the thermoremanent magnetizations in spin glasses|journal=Journal of Magnetism and Magnetic Materials|volume=54|pages=185–186|year=1986|doi=10.1016/0304-8853(86)90543-3|bibcode = 1986JMMM...54..185N }}.
*{{citation|author1-link=Kurt Binder|first1=K.|last1=Binder|first2=A. P.|last2=Young|title=Spin glasses: Experimental facts, theoretical concepts, and open questions|journal=Reviews of Modern Physics|volume=58|pages=801–976|year=1986|doi=10.1103/RevModPhys.58.801|bibcode=1986RvMP...58..801B}}.
*{{citation|last1=Bryngelson|first1=Joseph D.|first2=Peter G.|last2=Wolynes|title=Spin glasses and the statistical mechanics of protein folding|journal=[[Proceedings of the National Academy of Sciences]]|volume=84|pages=7524–7528|year=1987|doi=10.1073/pnas.84.21.7524|bibcode = 1987PNAS...84.7524B }}.
*{{citation|first1=K. H.|last1=Fischer|first2=J. A.|last2=Hertz|title=Spin Glasses|publisher=Cambridge University Press|year=1991}}.
* {{citation
| last1 = Mezard
| first1= Marc
| last2=Parisi|first2=Giorgio|author2-link=Giorgio Parisi
| last3=Virasoro|first3=Miguel Angel|author3-link=Miguel Ángel Virasoro (physicist)
| year = 1987
| title = Spin glass theory and beyond
| publisher = World Scientific
| location = Singapore
| isbn =  9971-5-0115-5
}}.
*{{citation|first=J. A.|last=Mydosh|title=Spin Glasses|publisher=Taylor & Francis|year=1995}}.
*{{citation| first=G.| last=Parisi|title=The order parameter for spin glasses: a function on the interval 0-1|journal=J. Phys. A: Math. Gen.| volume= 13| pages=1101–1112| year=1980| doi=10.1088/0305-4470/13/3/042|bibcode = 1980JPhA...13.1101P }} [http://papercore.org/Parisi1980 Papercore Summary http://papercore.org/Parisi1980].
*{{citation|authorlink=Michel Talagrand|first=Michel|last=Talagrand|journal=Annals of Probability|volume=28|pages=1018–1062|year=2000|jstor=2652978|title=Replica symmetry breaking and exponential inequalities for the Sherrington–Kirkpatrick model|issue=3}}.
*{{citation|first1=F.|last1=Guerra|first2=F. L.|last2=Toninelli|title=The thermodynamic limit in mean field spin glass models|journal=Communications in Mathematical Physics|volume=230|issue=1|pages=71–79|year=2002|doi=10.1007/s00220-002-0699-y|arxiv = cond-mat/0204280 |bibcode = 2002CMaPh.230...71G }}.
 
==External links==
*[http://papercore.org/summaries/solvable-model-of-a-spin-glass Papercore summary of seminal Sherrington/Kirkpatrick paper]
*[http://xstructure.inr.ac.ru/x-bin/theme3.py?level=2&index1=125728 Statistics of frequency of the term "Spin glass" in arxiv.org]
{{magnetic states}}
 
{{DEFAULTSORT:Spin Glass}}
<!--Categories-->
[[Category:Magnetic ordering]]
[[Category:Theoretical physics]]
[[Category:Mathematical physics]]

Latest revision as of 13:36, 5 May 2014

What is the number one exterior hemorrhoid treatment? Well, this is not an effortless question since different persons have different conditions. But, inside this article, you'll learn several methods to help healing the hemorrhoid.

Another type of hemorrhoid surgery is the pill which is to be swallowed. It helps to control blood flows and pressure in the body program. This helps to tighten vein tissues plus this offers a relaxation for the hemorrhoid area. This nonetheless has several negative effects which might not augur effectively for certain persons. Pharmacists might actually not prescribe this way as a result of the negative effects.

For instance, in the case of irregularity you'd make certain that a diet involved more fiber and water plus less processed food. This is not the entire pic and is a bit too simplistic, nevertheless we get the general idea. Another advantage to using all-natural methods whenever dealing with the irregularity problem is that not just would this remedy the constipation, nevertheless there are definite total health benefits to eating correctly.

A healthy digestion may equally be a key for not having to undertake any hemorrhoid cure. Good digestion ehances normal bowel movement. Exercising daily, walking for regarding 20 to 30 minutes a day supports the digestive program.

Then, don't strain out. I do have one answer which has aided greatly. I would like to review a pretty safe plus all-natural treatment that functions effectively in a limited days. It is known as the H Miracle system.

Or, try to apply phenylephrine or Preparation H to the area where we have hemorrhoid. According to several experts, utilize of the ointment is moreover truly powerful. It can actually constrict the blood vessels and reduce the redness and all.

Walter and I drifted apart inside the following years and I developed some minor hemorrhoid difficulties myself. Every time my hemorrhoids flared-up it brought back memories of my friend Walter and his agony. I prayed that my minor flare-ups wouldn't ever cause surgery. I don't understand if I could have prepared it by knowing what I had seen before.