Thulium

Globex Exploration Update on Virgin Mountain Rare Earth & Beryllium Project, Arizona, USA

Retrieved on: 
Tuesday, February 13, 2024

The Virgin Mountain rare earth & beryllium property is located in the Arizona portion of the Virgin Mountain range, about 120 km northeast of Las Vegas, Nevada.

Key Points: 
  • The Virgin Mountain rare earth & beryllium property is located in the Arizona portion of the Virgin Mountain range, about 120 km northeast of Las Vegas, Nevada.
  • Past exploration activities for uranium and later for rare earth elements (REE) initiated in the 1940’s and ended in 1991.
  • In the 1950’s and 1960’s the Virgin Mountains Be-bearing pegmatites had been explored intensely for beryllium, but never came into production.
  • Rare Earth (REE) ± U & Th mineralization is hosted in migmate-gneiss and interlayered thin schist layers, locally also in pegmatite dikes.

Laser Marking Equipment Market to increase by USD 1.23 billion between 2022-2027, the market is segmented by Product (Fiber laser machines, Co2 laser marking equipment, and Others), Application (Machine tools, Electronics and microelectronics, Automotive,

Retrieved on: 
Wednesday, January 17, 2024

This growth trajectory is anticipated to positively impact the global laser marking equipment market alongside escalating coding demands in the packaging industry.

Key Points: 
  • This growth trajectory is anticipated to positively impact the global laser marking equipment market alongside escalating coding demands in the packaging industry.
  • View a Free PDF Sample
    The global Laser Marking Equipment Market is driven by the increasing demand for precise and permanent marking solutions across various industries.
  • Fiber Laser Marking, CO2 Laser Marking, UV Laser Marking, YAG Laser Marking, and Diode Laser Marking are gaining prominence due to their versatility and efficiency.
  • The adoption of Industrial Laser Marking, Portable Laser Marking, and Benchtop Laser Marking machines is on the rise, supported by advanced Laser Marking Systems, Technology, Software, and Materials.

Where do all of James Bond's gadgets come from? A geologist tells the raw truth

Retrieved on: 
Saturday, December 30, 2023

Laser watches, fingerprint guns, explosives and, of course, over-equipped cars: the list of gadgets flaunted by James Bond is as bewildering as the mind of their inventor, Q.

Key Points: 
  • Laser watches, fingerprint guns, explosives and, of course, over-equipped cars: the list of gadgets flaunted by James Bond is as bewildering as the mind of their inventor, Q.
  • While some of these gadgets actually exist (laser, fingerprint recognition, back reactor), others, as we shall see, are more fanciful.

The fast, inconspicuous cars of the world’s most famous secret agent


In 1964’s Goldfinger, James Bond (Sean Connery) has to give up his Bentley for an Aston Martin DB5 modified by Q (the unforgettable Desmond Llewelyn). This is the first of eight appearances of a car that will go on to become inseparable from 007.
The auto is a good example of how products have become more complex and incorporated a greater diversity of raw materials over time.

  • The DB5 contains an array of minerals, starting with aluminium, a metal known to make cars lighter.
  • The body of the DB5 is made of aluminium and magnesium alloy plates resting on a tubular steel structure.
  • More recently, in Dying Can Wait (2021), the Aston Martin Valhalla is a plug-in hybrid, but James Bond has not yet gone all-electric.

Golden guns that would melt in real life

  • Another cult item is the Walther PPK, the German pistol used by 007 in many of the Bond films.
  • Limited to one shot, the pistol fires bullets of 4.2 mm calibre, weighs 30 g and is made of 23-carat gold with traces of nickel.
  • In jewellery, gold is often combined with silver, copper or zinc to make it wearable.
  • On 4 December 2023, one kilogram of gold was trading at around €66,000, an all-time record (World Gold Council).

James Bond and his high-tech enemies


The saga has also always been about surprising the general public with cutting-edge technology, which may be little known at the time of the film’s release. What better example than the laser, which, should we be reminded, stands short for Light Amplification by Stimulated Emission of Radiation. The saga likes to beam it as often as possible, alternatively adding it to pistols, watches, cars, and satellites.

  • In Goldfinger (1964), film director Guy Hamilton chooses to bypass Ian Fleming’s novel of the same name by threatening James Bond not with a chainsaw, but a laser.
  • For one, telemetry: from the Greek “tel” (“remote”) and “metros” (“to measure”), this practice consists in remotely measuring physical and electrical data.
  • Physicist Théodore Maiman introduced the first operational laser in the real world in May 1960 (American Physical Society), right before James Bond.


Crystalline lasers: made of silica glass (from very pure quartz) or synthetic ruby or sapphire crystals (aluminium oxide doped with titanium, chromium or rare earths : neodymium, ytterbium, praseodymium, erbium or thulium) ;
Fibre lasers : composed of optical fibres based on silica (derived from ultra-pure quartz) and doped with rare earths (metals extracted mainly from minerals such as bastnaesite, monazite or xenotime) ;
Gas lasers: using helium (extracted from natural gas deposits) and neon (extracted from atmospheric air gases) or CO2 ;
Organic dye lasers.
The red light beam in Goldfinger was emitted from a laser (probably ruby) whose brightness was amplified by special effects. However, the destructive nature of the laser is pure fiction. During filming, an operator used an acetylene torch under the pre-cut table even though Sean Connery was lying on it !

  • It’s a stainless and corrosion-resistant steel that limits the risk of allergic reactions when it comes into contact with the skin.
  • James Bond is like many other citizens, he consumes mineral raw materials on a daily basis.


Nicolas Charles ne travaille pas, ne conseille pas, ne possède pas de parts, ne reçoit pas de fonds d'une organisation qui pourrait tirer profit de cet article, et n'a déclaré aucune autre affiliation que son organisme de recherche.

Global Rare Earth Metals Market to 2031: Rising Electric Vehicle Sector Drives Growth - ResearchAndMarkets.com

Retrieved on: 
Thursday, June 8, 2023

These earth metals are classified into heavy earth metals and light earth metals.

Key Points: 
  • These earth metals are classified into heavy earth metals and light earth metals.
  • The growing trends in automobile section, electric vehicle sector and consumer electronics industry is mainly stimulating the demand and growth of worldwide rare earth metals market across the globe.
  • Among the various rare earth metals types, cerium oxide evolved as the highest contributor to the total market share of the rare earth metals market all across the globe .
  • The fluctuating costs of the rare earth metals and the high level of availability of these rare earth metals in regions like China are the factors that can hinder the growth of the global rare earth metals market.

Global Ultrafast Lasers Market Report 2022: Adoption of Ultrafast Lasers for Dimensional Accuracy is Driving Growth

Retrieved on: 
Thursday, March 30, 2023

The growth is primarily due to bioimaging's specific ability to view any specimen in a 3-D structure without any kind of physical disturbance.

Key Points: 
  • The growth is primarily due to bioimaging's specific ability to view any specimen in a 3-D structure without any kind of physical disturbance.
  • The growth is primarily due to the adoption of ultrafast lasers in the field of portable electronics, mobile phones, microprocessors, memory chips, and display panels.
  • By Geography: Asia Pacificaccounted for the largest market share among all regions within the total Global Ultrafast Lasers Market in 2021.
  • The growth is primarily due to the adoption of ultrafast lasers in automotive and consumer electronics end-user industries.

Edmund Optics® Announces 2022 Educational Award and Norman Edmund Award Recipients

Retrieved on: 
Tuesday, November 15, 2022

BARRINGTON, N.J., Nov. 15, 2022 (GLOBE NEWSWIRE) -- Edmund Optics, a leading global manufacturer and supplier of optical components, announces the recipients of its 2022 Educational Award program.

Key Points: 
  • BARRINGTON, N.J., Nov. 15, 2022 (GLOBE NEWSWIRE) -- Edmund Optics, a leading global manufacturer and supplier of optical components, announces the recipients of its 2022 Educational Award program.
  • This award is given in recognition of outstanding undergraduate and graduate optics research in science, technology, engineering, and mathematics programs at non-profit colleges and universities worldwide.
  • $47,000 USD in Edmund Optics products will be awarded to the Gold, Silver, and Bronze winners in the Americas and Europe to support their research.
  • The recipient of the Norman Edmund Inspiration Award, which best embodies the legacy of Edmund Optics' founder, Norman Edmund, is also chosen from the 30 global finalists and will receive an additional $5,000 in Edmund Optics products.

Material Processing to help the Fiber Laser Market Flourish at a CAGR of 11.1% during the forecast period of 2021-31. Get deep analysis by Future Market Insights, Inc.

Retrieved on: 
Thursday, October 20, 2022

NEWARK, Del., Oct. 20, 2022 /PRNewswire/ -- The global fiber laser market stood at US$ 3.1 Bn in the year 2021 and is expected to witness a noteworthy CAGR of 11.1% between 2021 and 2031.

Key Points: 
  • North America Fiber Laser Market is expected to grow at more than 10.9% CAGR during the forecast period.
  • Increasing vertical integration and rise in product innovation initiatives are few of the key trends shaping the fiber laser market.
  • Future Market Insights has enlisted these facts with insights in its latest market study entitled 'Fiber Laser Market'.
  • "With flourishing material processing vertical, the global fiber laser market is bound to grow on an astonishing note in the near future", says an analyst from Future Market Insights.

Material Processing to help the Fiber Laser Market Flourish at a CAGR of 11.1% during the forecast period of 2021-31. Get deep analysis by Future Market Insights, Inc.

Retrieved on: 
Thursday, October 20, 2022

NEWARK, Del., Oct. 20, 2022 /PRNewswire/ -- The global fiber laser market stood at US$ 3.1 Bn in the year 2021 and is expected to witness a noteworthy CAGR of 11.1% between 2021 and 2031.

Key Points: 
  • North America Fiber Laser Market is expected to grow at more than 10.9% CAGR during the forecast period.
  • Increasing vertical integration and rise in product innovation initiatives are few of the key trends shaping the fiber laser market.
  • Future Market Insights has enlisted these facts with insights in its latest market study entitled 'Fiber Laser Market'.
  • "With flourishing material processing vertical, the global fiber laser market is bound to grow on an astonishing note in the near future", says an analyst from Future Market Insights.

Global BPH Treatment Device MedCore Market Report 2022: Size, Share & COVID-19 Impact Analysis - Procedure Numbers, Unit Sales, Average Selling Prices, Market Value & Growth Trends - ResearchAndMarkets.com

Retrieved on: 
Monday, September 12, 2022

The "BPH Treatment Device Market Size, Share & COVID-19 Impact Analysis | Global | 2022-2028 | MedCore" report has been added to ResearchAndMarkets.com's offering.

Key Points: 
  • The "BPH Treatment Device Market Size, Share & COVID-19 Impact Analysis | Global | 2022-2028 | MedCore" report has been added to ResearchAndMarkets.com's offering.
  • The total global BPH treatment device market is growing at a rate of 5.2%, which will take the 2021 market value of $1.2 billion up to $1.7 billion by 2028.
  • The primary limiter of the BPH treatment device market is the increasing use of pharmaceutical treatments.
  • Overall, within the global BPH treatment device market there are three dominant competitors: Boston Scientific, Teleflex, and Olympus.

Needle-Free Platelet-Rich Plasma Grows Hair Through Thulium Laser Technology

Retrieved on: 
Wednesday, August 17, 2022

Beginning with a 60 cc blood draw, highly concentrated platelet-rich plasma isolate is obtained in the lab.

Key Points: 
  • Beginning with a 60 cc blood draw, highly concentrated platelet-rich plasma isolate is obtained in the lab.
  • However, many of these same growth factors have been shown in clinical studies to stimulate hair growth.
  • Getting the growth factors to the hair follicle has been the primary hurdle of platelet-rich plasma, which has typically been done by needle injection.Dr.
  • In 2005, Dr. Welter began a successful hair restoration practice and founded the New England Center for Hair Restoration.