If being above the Debye temperature is one of the preconditions for excess
heat, then Pd systems don't need an application of heat if they are done at
room temperature (20C), since the Debye temperature of Pd is several
degrees lower than room temperature.
Harry
On Thu, Jul 25, 2013 at 7:47
-0400
Subject: Re: [Vo]:Debye of Pd
From: hveeder...@gmail.com
To: vortex-l@eskimo.com
If being above the Debye temperature is one of the preconditions for excess
heat, then Pd systems don't need an application of heat if they are done at
room temperature (20C), since the Debye temperature of Pd
a little seems to really help. Notice in the codep exper.
that the codep on Au plating works so much better than just directly on Cu. Au
in Pd really drops the Ef.
D2
Date: Fri, 26 Jul 2013 14:06:35 -0400
Subject: Re: [Vo]:Debye of Pd
From: hveeder...@gmail.com
To: vortex-l@eskimo.com
[mailto:hveeder...@gmail.com]
Sent: Friday, July 26, 2013 2:07 PM
To: vortex-l@eskimo.com
Subject: EXTERNAL: Re: [Vo]:Debye of Pd
If being above the Debye temperature is one of the preconditions for excess
heat, then Pd systems don't need an application of heat if they are done at
room temperature
:* EXTERNAL: Re: [Vo]:Debye of Pd
** **
If being above the Debye temperature is one of the preconditions for
excess heat, then Pd systems don't need an application of heat if they are
done at room temperature (20C), since the Debye temperature of Pd is
several degrees lower than room temperature
In reply to DJ Cravens's message of Fri, 26 Jul 2013 13:41:48 -0600:
Hi,
[snip]
My mental model more easily sees the optical phonons pushing D's together then
it sees acoustical phonons doing that.
For D this may be appropriate, but it goes nowhere toward explaining H + Ni,
where the reaction
In reply to James Bowery's message of Fri, 26 Jul 2013 17:39:20 -0500:
Hi,
I think it's only important to be *above* the Debye temp. Perhaps even the
further above the better.
This response mysteriously ended up going to Francis rather than vortex-l.
-- Forwarded message --
Is it possible that the heat measured in these experiments was released in hot
spots where the Debye temp was exceeded? That would seem like an obvious way
to overcome the requirement where the main mass remains at an overall low temp.
Dave
-Original Message-
From: Frank Roarty
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