Scientists grow a material based on hafnium oxide for a new type of non-volatile memory — sciencedaily

Humans are constantly expanding the volume of stored and processed information, which according to statistics is doubling every 1.5 years. Electricity production in india To store this information, we need increasing amounts of computer memory, especially non-volatile memory, which stores information even in the event of a power outage. Wd gaster x reader Scientists all over the world are trying to develop faster and more compact storage devices. Electricity word search ks2 The ideal would be a “universal” memory device with the speed of RAM, the capacity of a hard drive, and the non-volatility of a flash drive.

There are many known principles that can be used to build memory, but each one has its drawbacks. Electricity labs for middle school This is why modern computers and mobile devices have multiple types of memory.

Non-volatile memory based on ferroelectric tunnel junctions is a promising development that has not yet been fully implemented. Gas x coupon 2015 A ferroelectric is a material that is able to “remember” the direction of an externally applied electric field by the residual polarization charge.

Thin-film ferroelectrics have for a long time been used to make non-volatile memory devices, however it is extremely difficult to miniaturize them in order to achieve high density / storage capacity and, in addition to this, they are made of materials that are “incompatible” with the production processes used in modern microelectronics.

About ten years ago, after ferroelectric properties were demonstrated in ultra-thin single-crystal films of perovskites, an alternative concept for memory devices was proposed — based on the use of the tunnel effect.

Ferroelectrics are generally insulators and do not conduct electricity. 3 gases that cause acid rain However, if the ferroelectric layer is very thin, electrons can “slip” through with a certain probability, thanks to the quantum tunnelling effect. Gas after eating meat The probability of tunnelling depends on the size and shape of the potential barrier (the energy characteristics of the structure), and the electrons that “pass through” create a tunnel current. Electricity facts ks2 The movement of the electrons in this case is similar to an obstacle course race, and the size of the obstacle is determined by the direction of the polarization vector, which alters the shape of the potential barrier (see image below). Year 6 electricity assessment Information is written by applying a voltage to the electrodes next to the ultra-thin ferroelectric, and it is read by measuring the tunnelling current.

In theory, this type of memory may have an extremely high density, fast reading and writing speeds, and a low level of power consumption. Gas monkey monster truck driver It could become a non-volatile alternative to DRAM (dynamic random-access memory). Power outage houston txu Modern DRAM has a short retention time (approximately 0.1 seconds), after which the data is either lost or overwritten. Gas tax rates by state Using this type of memory requires a large amount of power. Gas constant for air Memory based on ferroelectric tunnel junctions will be able to save power, which is especially important for portable devices that run on batteries. Gas welder salary However, until now, all prototypes of devices based on conventional ferroelectrics have not been compatible with silicon technology, which is used in the production of most modern chips.

The team of researchers from MIPT’s Laboratory of Functional Materials and Devices for Nanoelectronics, with the participation of their colleagues from the University of Nebraska (USA) and the University of Lausanne (Switzerland), have for the first time experimentally demonstrated that polycrystalline alloyed films of hafnium and zirconium oxides with a thickness of just 2.5 nm (see image below) retain their ferroelectric properties.

While hafnium oxide is already used in the production of modern silicon logic chips, a few years ago ferroelectric properties were discovered in one of its modifications. Electricity names superheroes In their study, the scientists from MIPT succeeded in growing an ultra-thin, tunnel-transparent film of this material on a silicon substrate, while maintaining the ferroelectric properties.

It is important to note that the the film was grown by Atomic Layer Deposition (ALD) technique. Electric utility companies in california which is widely used today in the production of modern microprocessors and one of its particular benefits is that it enables functional layers to be grown in three-dimensional structures.

“Since the structures of this material are compatible with silicon technology, we can expect that new non-volatile memory devices with ferroelectric polycrystalline layers of hafnium oxide will be able to be built directly onto silicon in the near future,” says the corresponding author of the study and head of the Laboratory of Functional Materials and Devices for Nanoelectronics, Andrei Zenkevich.

Furthermore, if ferroelectric tunnel junctions based on hafnium oxide are developed, it can be hoped that they will be able to demonstrate memristor properties. Electricity and magnetism review sheet This is a prerequisite for creating electronic synapses, which could be used in neuromorphic systems that are currently being developed. Gas out These systems have a fundamentally different computing architecture that simulates the functioning principles of the human brain.