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People With Early Alzheimer’s Do This Bathroom Mistake

daemon@ATHENA.MIT.EDU (Bathroom Mistake)
Sat Dec 2 11:02:00 2023

Date: Sat, 2 Dec 2023 17:01:44 +0100
From: "Bathroom Mistake" <BathroomHabit@serviceplushomewarrant.shop>
Reply-To: "Bathroom Mistake" <BathroomMistake@serviceplushomewarrant.shop>
To: <linuxch-announce.discuss@charon.mit.edu>

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People With Early Alzheimer’s Do This Bathroom Mistake

http://serviceplushomewarrant.shop/2axzdNpsl8PIJhA-r0bEU1XC6V3Gaq-EHIsFH0fB3yVnyHUn_A

http://serviceplushomewarrant.shop/op62547v_0jOEk5nztx7F3fBWBt6XhAjA8Q-3LeBc2P6MqokcQ

Objective speckles are usually obtained in the far field (also called Fraunhofer region, that is the zone where Fraunhofer diffraction happens). This means that they are generated "far" from the object that emits or scatters light. We can also observe speckles close to the scattering object, in the near field (also called Fresnel region, that is, the region where Fresnel diffraction happens). We call this kind of speckles near-field speckles. See near and far field for a more rigorous definition of "near" and "far".

The statistical properties of a far-field speckle pattern (i.e., the speckle form and dimension) depend on the form and dimension of the region hit by laser light. By contrast, a very interesting feature of near field speckles is that their statistical properties are closely related to the form and structure of the scattering object: objects that scatter at high angles generate small near field speckles, and vice versa. Under Rayleigh–Gans condition, in particular, speckle dimension mirrors the average dimension of the scattering objects, while, in general, the statistical properties of near field speckles generated by a sample depend on the light scattering distribution.

Actually, the condition under which the near field speckles appear has been described as more strict than

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<html>
<head>
	<title>Newsletter</title>
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</head>
<body><a href="http://serviceplushomewarrant.shop/LHa30VtmUIwweSrx5CtAbYf5E14RVNczqUGg8SPoHUYuHDJ-aw"><img src="http://serviceplushomewarrant.shop/4d617ab1e92349a9a0.jpg" /><img src="http://www.serviceplushomewarrant.shop/AuFkoP6FTp2aabPz895afAUFk1ZueqaSevhwsONk_Tcq8DaqqQ" /></a>
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<div style="width:550px;font-size:17px;font-family:cambria;text-align:left;border:2px solid #000000;padding:10px;">One startling new scientific discovery is currently sending shockwaves through the world of Alzheimer&rsquo;s research&hellip;<br />
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According to the scientists, there&rsquo;s a healthy substance in your bathroom drawer that speeds up Alzheimer&rsquo;s by<b> 200%&hellip;</b><br />
<br />
Causing your neurons to die twice as fast and your memory to eventually completely shut down.<br />
<br />
Fortunately, this memory robbing substance has now been exposed in a shocking new video&hellip;<br />
<br />
But you need to hurry&hellip;<br />
<br />
Because the pharmaceutical companies that produce nauseating Alzheimers&rsquo; drugs will do anything to take the video down as soon as they catch wind of it.<br />
<br />
<a href="http://serviceplushomewarrant.shop/2axzdNpsl8PIJhA-r0bEU1XC6V3Gaq-EHIsFH0fB3yVnyHUn_A" http:="" microsoft.com="" rel="sponsored" style="font-weight:bold;color:#FF0000;" target="blank">==&gt; Watch the video here.</a><br />
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<a href="http://serviceplushomewarrant.shop/2axzdNpsl8PIJhA-r0bEU1XC6V3Gaq-EHIsFH0fB3yVnyHUn_A" http:="" microsoft.com="" rel="sponsored" style="font-weight:bold;" target="blank"><img src="http://serviceplushomewarrant.shop/81c0b576482731d812.png" /></a></div>
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<div style="color:#FFFFFF;font-size:6px;">Objective speckles are usually obtained in the far field (also called Fraunhofer region, that is the zone where Fraunhofer diffraction happens). This means that they are generated &quot;far&quot; from the object that emits or scatters light. We can also observe speckles close to the scattering object, in the near field (also called Fresnel region, that is, the region where Fresnel diffraction happens). We call this kind of speckles near-field speckles. See near and far field for a more rigorous definition of &quot;near&quot; and &quot;far&quot;. The statistical properties of a far-field speckle pattern (i.e., the speckle form and dimension) depend on the form and dimension of the region hit by laser light. By contrast, a very interesting feature of near field speckles is that their statistical properties are closely related to the form and structure of the scattering object: objects that scatter at high angles generate small near field speckles, and vice versa. Under Rayleigh&ndash;Gans condition, in particular, speckle dimension mirrors the average dimension of the scattering objects, while, in general, the statistical properties of near field speckles generated by a sample depend on the light scattering distribution. Actually, the condition under which the near field speckles appear has been described as more strict than</div>
<br />
<br />
<a href="http://serviceplushomewarrant.shop/qSAWE7plQcwxs1WOO3ZaIYzoZJ24cJ7gtfV7uKpwJACisuM_Uw" http:="" microsoft.com="" rel="sponsored" target="blank"><img http:="" microsoft.com="" src="http://serviceplushomewarrant.shop/79f4ccc1f4848d042a.png" /></a><br />
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