Hi Smokedaddy,
If we eliminate the word "halo" for the moment, and rephrase your question to read..." is there some phenomenon, that can cause old, deep silver coins (meaning buried in undisturbed ground for some lengthy period of time) to be more easily detected at greater depths than recently buried silver coins in (obviously) disturbed ground, the answer is yes.
The three main concepts seem to revolve around (a) leaching of the coins metallic constituents into the surrounding soil matrix, and, (b) alignment of electrical charges within the soil immediately adjacent to the coin. (c) increased eddy current formation on the target in undisturbed ground.
In undisturbed ground, electrical alignment remains unchanged, and may for that one reason alone, provide satisfactory explanation as to why we can locate silver coins deeper than in recently disturbed ground. Do we know this to be a fact in science? No, we don't.
With regard to leaching of the coins metallic constituents on a molecular level into the surrounding soil, factors including the soil type, acidity, chemical constituents (namely, corrosive fertilizers), and moisture content...can provide favourable (and frequently catalytic) environments for either oxidation or reduction reactions to occur between the soil and the coins molecular surface.
Coin hunters are well aware of the obvious copper oxides that form on the surface of copper pennies; and frequently see that same residue leached into the surrounding soil as well. Do we know this phenomenon enhances our ability to detect that type of target in scientific fact? No, we don't.
Elementary chemistry tells us that silver is a reactive substance, quite willing to change it's outer orbital electron profile to accomodate many different chemical bonds. The most common reaction is for silver to become reduced and consequently form the compound silver sulphide. In consistently wet substrates, or in anaerobic sediments in freshwater areas (I don't know about salt water environments at all), it not uncommon to retrieve older silver coins completely covered in black tarnish...silver sulphide. I have seen firsthand examples of silver coins reduced to paper thin metal due entirely to sulphide reduction reactions in anaerobic environments.
Also, keep in mind, that silver coins are normally alloyed with an even more reactive metal....copper; 10% in US silver usually (and don't forget about 10% in gold coins), and 10 to 20% in Canadian silver coins, depending on the mint date. I have seen, after digging several thousands of silver coins, some few from very dark organic soils at superb depths, that had not a patina, but rather a powdery crystalline coating of copper oxide on a part of the coins surface. I attribute both the extra depth and the copper oxide coating (blue-green) to the higher organic content soils (that contain increased amounts of organic acids)...providing even more favourable environs for chemical reactions.
The point is then, that silver coins and other various metals do react to form compounds that have no alternative but to leach into the surrounding soil. I doubt that this "halo" has anything to do with greater depths in undisturbed ground, but as you can see, it's easy to argue it's formation.
There is a third very plausible explanation for enhanced target depths and ID in undisturbed ground involving a theory wrt less of the EM field being absorbed by undisturbed vs disturbed ground, thus allowing for greater target eddy current formation and hence increased energy return to the coils receive winding. Makes more sense to me.
Whatever the reason, the "phenomenon" is substantiated by experience in the field, rather than on a scientifically measured basis, and can easily be demonstrated at any time by anybody. Dig a deep silver coin, rebury it, and try to redetect it. I consider that evidence to be unassailable. I stand to be corrected, but that's my current take on this subject.
