
In the 1990s, Dobison and Denison (1995) conducted a comprehensive review of metal prospecting and archeology in the UK. Metal detectors can be used to locate areas even when there is no surface evidence. Metal Detection Detector, Battle of Resaca, 2011 (from Espenshade Sullivan and Swanson 2011). Another example is metal detection is allowed in more than 30 state parks across Washington. They discovered that literally tens of thousands of new finds are made by detectors in England each year. Metal detectors can also be used to study metallic artifact distribution patterns at a site without resorting to expensive and time-consuming official excavation units. They concluded that metal detectors can be used for good or bad, but with proper controls, the positive aspects far outweigh the negatives associated with their use in archaeological sites. Metal detectors can aid in the planning of testing and excavation strategies, as they can detect buried individual metallic artifacts or concentrations of metallic artifacts, thus supplementing and informing inventory data and documentary evidence regularly used in planning excavations. These and other research examples using metal detectors as archaeological tools show that almost any archaeological site containing metal artifacts can benefit from the use of metal detectors in their investigation. Detector use by archaeologists has grown exponentially since the 1990s, and a few examples will suffice. Sixty-eight people worked on the 46-acre intense metal detector survey, the excavation of more than 500 targets, and the mapping of all Metal Detector finds discovered. Metal detector users must first register with Washington State Parks and comply with published regulations. One result of their work was the enactment of a new Treasury Act in 1996, which sets guidelines for reporting findings, seeking advice from archaeologists and museum staff, and defining general government policy regarding the metal prospecting hobby.
Staff training and the suitability of metal detection devices are the twin elements of a successful research efforts that use metal detectors. Advanced Metal Detection for archaeologists from the website can recognize these formations in their own words. The key question is "Should I use metal detectors?" "How can I best use the metal detector?" Several university programs and field school, undergraduate and graduate students have begun to incorporate metal detection training, although detailed information to teach this subject, expertise and experience has remained only a limited number of professional archaeologists. Most of the current archaeologists, metal detectors "devil's tool" at a time when education was seen as acceptable and that the archaeologists to benefit from formal education. '' Use of metal detectors and history, has appeared several professional archaeologists metal exploration experience in archeology generally not accepted since it started in the best way they receive training in how to maximize their interests. Another institution 'Advanced Metal Detection for archaeologists' school is still archaeologist and metal detector is an organization providing education users. AM, archaeologists will provide an opportunity for information technology and practical skills liable to present updates and expansions'. In addition, many professionals are not aware of the developments in metal detector technology, and unfortunately most are using outdated models.
The detector is not prohibited. If you are entering someone else's land, the land owner must have permission or the land owner must be with you. You will not enter the protected areas, military zones, cemeteries. You should search during working hours and you should not carry any picks, shovels or piercing tools with you.
Even if a user says to buy a VLF detector and use it everywhere, it will not work. Detector systems are divided into VLF and Pulse. When the advantages/disadvantages between the systems are examined, it is seen that the most used system in the world is VLF. The user has to choose between the detectors recommended to him according to the features and usage area.
1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

11.

12.
